DETECTORS
Thermal detectors thermal detectors are temperature-activated sensors to initiate an alarm.
Fixed-temperature type
Rate-of-rise (ror) type
Combination type
Smoke detector it is a device that senses smoke. They are quicker to respond than thermal detectors.
Photoelectric type
Ionization type
Flame detector It is used to detect the direct radiation of a flame in the visible,infrared, and ultraviolet ranges of the spectrum.
Infrared detector
Ultraviolet detector
Photoelectric detector
Flame flicker detector
The document discusses fire protection systems for aircraft. It describes the four classes of fires based on the type of fuel (A-D) and appropriate extinguishing agents for each class. It also outlines various fire detection systems, including thermo-switch, thermocouple, Fenwal, and pneumatic systems. Fire extinguishing agents work by displacing oxygen or chemically combining with oxygen to prevent combustion. Common agents are carbon dioxide, freon, halon 1301, and nitrogen. Fire extinguishing systems can be conventional or high rate discharge, with the latter utilizing compressed gases or liquids under high pressure.
The document discusses fire water pump systems, including their purpose of protecting life and property. It provides an overview of key components such as the pump, driver, controller, and sensing line arrangement. The document outlines pump characteristics, rated capacities, materials used, water supply sources, and types of pumps. It also discusses pump installation, jockey pumps, diesel, electric, and steam fire pump systems and their components. Testing organizations such as UL and FM are described.
The document discusses hoses and hose fittings used in firefighting. It defines different types of hoses such as fire hose, hose reel hose, suction hoses, delivery hoses, and discusses their uses and characteristics. It also describes various hose fittings including couplings, nozzles, monitors, and their types. Finally, it covers hose storage methods, care, maintenance and damages to hoses.
The document discusses fire protection systems and fire extinguishing agents. It describes Michael Hammond Engineering Co. Ltd. and their focus on providing protective equipment like fire suppression systems. It then summarizes three main fire extinguishing agents - FM 200, Argonite, and water mist. FM 200 is identified as the best alternative to Halon 1301 for critical facilities, as it is safe for people and leaves no residue. The document provides details on how each agent works and suitable applications.
This document outlines different types of precautions - airborne, contact, and droplet - that should be taken for various infectious diseases. It then lists diseases that require each type of precaution, including chickenpox, flu, measles, mumps, whooping cough, meningitis, diphtheria, pneumonia, and tuberculosis.
This document discusses fire fighting and fire protection systems. It outlines the four elements of fire as fuel, oxygen, heat, and the chain reaction. It then describes different types of fire protection systems including sprinkler systems, fire hoses, valves, pipes, and pumps. Finally, it covers inspection and maintenance of fire protection systems such as fire department connections, main drains, and obstruction investigations.
DETECTORS
Thermal detectors thermal detectors are temperature-activated sensors to initiate an alarm.
Fixed-temperature type
Rate-of-rise (ror) type
Combination type
Smoke detector it is a device that senses smoke. They are quicker to respond than thermal detectors.
Photoelectric type
Ionization type
Flame detector It is used to detect the direct radiation of a flame in the visible,infrared, and ultraviolet ranges of the spectrum.
Infrared detector
Ultraviolet detector
Photoelectric detector
Flame flicker detector
The document discusses fire protection systems for aircraft. It describes the four classes of fires based on the type of fuel (A-D) and appropriate extinguishing agents for each class. It also outlines various fire detection systems, including thermo-switch, thermocouple, Fenwal, and pneumatic systems. Fire extinguishing agents work by displacing oxygen or chemically combining with oxygen to prevent combustion. Common agents are carbon dioxide, freon, halon 1301, and nitrogen. Fire extinguishing systems can be conventional or high rate discharge, with the latter utilizing compressed gases or liquids under high pressure.
The document discusses fire water pump systems, including their purpose of protecting life and property. It provides an overview of key components such as the pump, driver, controller, and sensing line arrangement. The document outlines pump characteristics, rated capacities, materials used, water supply sources, and types of pumps. It also discusses pump installation, jockey pumps, diesel, electric, and steam fire pump systems and their components. Testing organizations such as UL and FM are described.
The document discusses hoses and hose fittings used in firefighting. It defines different types of hoses such as fire hose, hose reel hose, suction hoses, delivery hoses, and discusses their uses and characteristics. It also describes various hose fittings including couplings, nozzles, monitors, and their types. Finally, it covers hose storage methods, care, maintenance and damages to hoses.
The document discusses fire protection systems and fire extinguishing agents. It describes Michael Hammond Engineering Co. Ltd. and their focus on providing protective equipment like fire suppression systems. It then summarizes three main fire extinguishing agents - FM 200, Argonite, and water mist. FM 200 is identified as the best alternative to Halon 1301 for critical facilities, as it is safe for people and leaves no residue. The document provides details on how each agent works and suitable applications.
This document outlines different types of precautions - airborne, contact, and droplet - that should be taken for various infectious diseases. It then lists diseases that require each type of precaution, including chickenpox, flu, measles, mumps, whooping cough, meningitis, diphtheria, pneumonia, and tuberculosis.
This document discusses fire fighting and fire protection systems. It outlines the four elements of fire as fuel, oxygen, heat, and the chain reaction. It then describes different types of fire protection systems including sprinkler systems, fire hoses, valves, pipes, and pumps. Finally, it covers inspection and maintenance of fire protection systems such as fire department connections, main drains, and obstruction investigations.
The document discusses safety training on breathing apparatus sets, including defining a BA set, classifying the types as atmospheric or self-contained, and describing open circuit self-contained sets in particular. It explains that open circuit self-contained sets have a cylinder that provides compressed air to a face mask via a back plate. A key point covered is calculating a BA set's working duration based on the pressure and volume of its cylinder.
Transmission based precaution techniquesReynel Dan
This document outlines transmission-based precaution techniques, including airborne, droplet, and contact precautions. Airborne precautions are for diseases transmitted through small particles that remain suspended in the air, like measles or tuberculosis, and involve respiratory protection, negative pressure rooms, and appropriate ventilation. Droplet precautions are for diseases transmitted through large respiratory droplets, like influenza, and involve masks within 3 feet and private rooms. Contact precautions are for diseases transmitted through direct or indirect contact and involve private rooms, dedicated or disposable equipment, gloves, and hand hygiene.
The document discusses various topics related to firefighting water systems including:
1. Types of sprinkler systems such as wet, dry, pre-action, deluge, and anti-freeze systems. It also discusses standpipe systems.
2. Components of sprinkler systems such as tanks, pumps, control valves, and sprinkler heads.
3. Characteristics of sprinkler systems such as temperature ratings, K-factors, installation orientations, and sprinkler response types.
National fire codes and standards from NFPA that relate to sprinkler system design and installation are also referenced.
FOR DOWNLOAD THIS GO THROUGH THIS BELOW LINK
https://ezazsidd1993.stores.instamojo.com/?ref=profile_bar
AUTOMATIC FIRE FIGHTING SYSTEM -WATER SPRINKLER SYSTEM
WATER MIST SYSTEM
FOAM SYSTEM
GAS SUPPRESSION SYSTEM
- Fire pumps are centrifugal pumps selected to operate between 90-140% of rated capacity and less than 150% to avoid overpressure.
- Pump rooms require 1-hour fire rated separation, emergency lighting, ventilation, and drainage.
- Suction and discharge piping must be sized properly and have the correct fittings like gauges, valves, and relief valves. Jockey pumps maintain system pressure.
- Electric and diesel fire pump controllers prioritize system operation over equipment protection to ensure reliable fire suppression.
This document provides instruction on selecting, carrying, raising, and working safely from ladders according to standard operating procedures. It describes different ladder types, parts, inspection procedures, carrying and raising techniques, placement considerations, climbing techniques, and assisting conscious and unconscious victims down ladders. The goal is for students to safely handle ladders according to department standards.
FOR DOWNLOAD THIS GO THROUGH THIS BELOW LINK
https://ezazsidd1993.stores.instamojo.com/?ref=profile_bar
INTRODUCTION OF FIRE FIGHTING
FIRE FIGHTING NETWORK COMPONENTS
Manual Fire Fighting System
Standpipe System-Landing Valve(L.V) ,Fire Hose Cabinet(F.H.C).
Fire Hydrant(F.H).
Fire Department Connection(F.D.C).
Portable Fire Extinguishers.
Pipe Types& connecting of pipes.
Pipe Accessories, Supports & Valves.
Water Source & Pumping Station.
This document discusses specialized water-based fire protection systems as alternatives to standard sprinkler systems. It describes fixed foam, water spray, foam-water, and water mist systems, noting their components, applications, and inspection requirements. These systems provide targeted protection for hazards where sprinklers would be inadequate, such as flammable liquid storage, using methods like foam application or ultra-fine water mist. Proper design, installation, and maintenance are needed to ensure effective performance.
This document discusses fire pump system design according to NFPA 20 standards. It provides information on the purpose of fire pumps, acceptable pump types, sizing requirements, accessories, and operation. Fire pumps are designed to supply adequate water for sprinkler or standpipe systems by automatically starting when pressure drops and operating at 150% of rated capacity and 65% of rated head. Acceptable pump types include horizontal split case, vertical in-line, end suction, and vertical turbine configurations.
Introductory training on fire water pumping systemSabrul Jamil
The document provides an introduction and overview of fire water pumping systems. It discusses the key components of these systems including pumps, drivers, controllers, and accessories. Pumps are the primary component and come in various types depending on the application and flow needs. Drivers power the pumps and can be electric motors or diesel engines. Controllers manage the operation of the pumps and drivers. Accessories include gauges, valves, and flowmeters to monitor and control the water flow and pressure. Standards such as NFPA 20 provide requirements for the installation and operation of fire water pumping systems.
This document discusses ventilation techniques for firefighters. It defines ventilation as the systematic removal of combustion byproducts to relieve heat and remove smoke and toxic gases. It identifies different types of ventilation including natural, mechanical, hydraulic, and various roof ventilation cuts. It emphasizes the importance of considering safety, obstacles, and factors that can affect ventilation when deploying these techniques. The goal is to use ventilation strategically as a tool to fight fires while avoiding risks to firefighters or fire spread.
Air conditioning in hospitals is essential for three main reasons:
1) It provides a comfortable environment that helps patients recover faster and allows doctors to work more effectively.
2) It controls the temperature, humidity, and air quality which are important for infection control and certain medical treatments.
3) Proper ventilation and filtration are needed to dilute and remove airborne contaminants like microorganisms, viruses, and chemicals in order to maintain indoor air quality and prevent the spread of infection within the hospital.
FM200 is a colourless gas which is liquified under pressure for storage. Like Halon 1301 it has a low toxicity level and is superpressurised with Nitrogen to 24.8bar (360psi). It rapidly extinguishes most commonly found fires through a combination of chemical and physical mechanisms.
This document outlines requirements for marking means of egress in buildings. It states that all required exits must be signposted, except for main exterior doors that are clearly identifiable as exits. Exit signs must be installed at stair doors, horizontal exits, and other required exits from each story. Exception is made for small occupant loads. Tactical signage reading "EXIT" is required on exit stair doors. Placement of exit signs cannot be more than 100 feet from any point in an exit access corridor. Floor proximity exit signs must be no less than 6 inches or more than 8 inches above the floor. A listed floor proximity egress path marking system is required within 8 inches of the floor to delineate the exit path.
- Introduction to Fire Fighting
- Fire Systems Classification
- Fire Protection Systems
- Fire Fighting Systems Control
- A Brief history about Firefighting
- History of Fire Sprinkler Systems
- History of Fire Detection
Pressurisation Systems in residential and commercial buildings
Pressurisation Systems CPD
Approved Document B to the Building Regulations requires smoke ventilation to escape stairs and, under some circumstances, common lobbies and/or corridors in residential buildings. Pressurisation is one way of meeting this requirement.
This seminar covers:
An explanation of the basic legislative requirements and how these are achieved
The various design approaches
Specifying the equipment
Firefighting equipment has evolved over time from simple buckets to modern systems. Early methods used sand and water buckets that could only extinguish small fires, requiring many people. Fire hydrants attached to pressurized water mains allowed larger fires to be fought faster if operated properly, but required training. Fire hoses connected hydrants to water sources inside and outside buildings. Sprinklers were developed to automatically douse fires, but had slow detection and limitations. Modern water spray systems like those used on transformers respond even faster to contain fires. A variety of equipment is now available to effectively address different fire risks and situations.
Comparision between NFPA and TAc rules for Power plantsvakil jagdish
The document compares rules for fire protection systems in power plants according to NFPA and TAC standards. Key differences include:
- NFPA has more detailed standards while TAC relies more on recommendatory codes
- NFPA requires hydraulic calculations, automatic systems, standby pumps, and prohibits combined water mains. TAC allows thumb rule sizing and non-automatic systems.
- NFPA has stricter requirements for pipe sizes, pressures, spacing, and protection of areas. TAC requirements are less stringent.
HVAC systems are designed to heat, cool, and ventilate indoor spaces for human comfort. Heating increases temperature while cooling decreases it. Ventilation maintains indoor air quality through exhaust and fresh air. Air conditioning alters temperature, humidity, and air quality. Common HVAC systems include window units for single rooms, split units with indoor and outdoor components, packaged units for medium loads, and central air for large buildings. Vapor compression is the most widely used refrigeration cycle, involving an evaporator, compressor, condenser, and expansion valve.
The document discusses safety training on breathing apparatus sets, including defining a BA set, classifying the types as atmospheric or self-contained, and describing open circuit self-contained sets in particular. It explains that open circuit self-contained sets have a cylinder that provides compressed air to a face mask via a back plate. A key point covered is calculating a BA set's working duration based on the pressure and volume of its cylinder.
Transmission based precaution techniquesReynel Dan
This document outlines transmission-based precaution techniques, including airborne, droplet, and contact precautions. Airborne precautions are for diseases transmitted through small particles that remain suspended in the air, like measles or tuberculosis, and involve respiratory protection, negative pressure rooms, and appropriate ventilation. Droplet precautions are for diseases transmitted through large respiratory droplets, like influenza, and involve masks within 3 feet and private rooms. Contact precautions are for diseases transmitted through direct or indirect contact and involve private rooms, dedicated or disposable equipment, gloves, and hand hygiene.
The document discusses various topics related to firefighting water systems including:
1. Types of sprinkler systems such as wet, dry, pre-action, deluge, and anti-freeze systems. It also discusses standpipe systems.
2. Components of sprinkler systems such as tanks, pumps, control valves, and sprinkler heads.
3. Characteristics of sprinkler systems such as temperature ratings, K-factors, installation orientations, and sprinkler response types.
National fire codes and standards from NFPA that relate to sprinkler system design and installation are also referenced.
FOR DOWNLOAD THIS GO THROUGH THIS BELOW LINK
https://ezazsidd1993.stores.instamojo.com/?ref=profile_bar
AUTOMATIC FIRE FIGHTING SYSTEM -WATER SPRINKLER SYSTEM
WATER MIST SYSTEM
FOAM SYSTEM
GAS SUPPRESSION SYSTEM
- Fire pumps are centrifugal pumps selected to operate between 90-140% of rated capacity and less than 150% to avoid overpressure.
- Pump rooms require 1-hour fire rated separation, emergency lighting, ventilation, and drainage.
- Suction and discharge piping must be sized properly and have the correct fittings like gauges, valves, and relief valves. Jockey pumps maintain system pressure.
- Electric and diesel fire pump controllers prioritize system operation over equipment protection to ensure reliable fire suppression.
This document provides instruction on selecting, carrying, raising, and working safely from ladders according to standard operating procedures. It describes different ladder types, parts, inspection procedures, carrying and raising techniques, placement considerations, climbing techniques, and assisting conscious and unconscious victims down ladders. The goal is for students to safely handle ladders according to department standards.
FOR DOWNLOAD THIS GO THROUGH THIS BELOW LINK
https://ezazsidd1993.stores.instamojo.com/?ref=profile_bar
INTRODUCTION OF FIRE FIGHTING
FIRE FIGHTING NETWORK COMPONENTS
Manual Fire Fighting System
Standpipe System-Landing Valve(L.V) ,Fire Hose Cabinet(F.H.C).
Fire Hydrant(F.H).
Fire Department Connection(F.D.C).
Portable Fire Extinguishers.
Pipe Types& connecting of pipes.
Pipe Accessories, Supports & Valves.
Water Source & Pumping Station.
This document discusses specialized water-based fire protection systems as alternatives to standard sprinkler systems. It describes fixed foam, water spray, foam-water, and water mist systems, noting their components, applications, and inspection requirements. These systems provide targeted protection for hazards where sprinklers would be inadequate, such as flammable liquid storage, using methods like foam application or ultra-fine water mist. Proper design, installation, and maintenance are needed to ensure effective performance.
This document discusses fire pump system design according to NFPA 20 standards. It provides information on the purpose of fire pumps, acceptable pump types, sizing requirements, accessories, and operation. Fire pumps are designed to supply adequate water for sprinkler or standpipe systems by automatically starting when pressure drops and operating at 150% of rated capacity and 65% of rated head. Acceptable pump types include horizontal split case, vertical in-line, end suction, and vertical turbine configurations.
Introductory training on fire water pumping systemSabrul Jamil
The document provides an introduction and overview of fire water pumping systems. It discusses the key components of these systems including pumps, drivers, controllers, and accessories. Pumps are the primary component and come in various types depending on the application and flow needs. Drivers power the pumps and can be electric motors or diesel engines. Controllers manage the operation of the pumps and drivers. Accessories include gauges, valves, and flowmeters to monitor and control the water flow and pressure. Standards such as NFPA 20 provide requirements for the installation and operation of fire water pumping systems.
This document discusses ventilation techniques for firefighters. It defines ventilation as the systematic removal of combustion byproducts to relieve heat and remove smoke and toxic gases. It identifies different types of ventilation including natural, mechanical, hydraulic, and various roof ventilation cuts. It emphasizes the importance of considering safety, obstacles, and factors that can affect ventilation when deploying these techniques. The goal is to use ventilation strategically as a tool to fight fires while avoiding risks to firefighters or fire spread.
Air conditioning in hospitals is essential for three main reasons:
1) It provides a comfortable environment that helps patients recover faster and allows doctors to work more effectively.
2) It controls the temperature, humidity, and air quality which are important for infection control and certain medical treatments.
3) Proper ventilation and filtration are needed to dilute and remove airborne contaminants like microorganisms, viruses, and chemicals in order to maintain indoor air quality and prevent the spread of infection within the hospital.
FM200 is a colourless gas which is liquified under pressure for storage. Like Halon 1301 it has a low toxicity level and is superpressurised with Nitrogen to 24.8bar (360psi). It rapidly extinguishes most commonly found fires through a combination of chemical and physical mechanisms.
This document outlines requirements for marking means of egress in buildings. It states that all required exits must be signposted, except for main exterior doors that are clearly identifiable as exits. Exit signs must be installed at stair doors, horizontal exits, and other required exits from each story. Exception is made for small occupant loads. Tactical signage reading "EXIT" is required on exit stair doors. Placement of exit signs cannot be more than 100 feet from any point in an exit access corridor. Floor proximity exit signs must be no less than 6 inches or more than 8 inches above the floor. A listed floor proximity egress path marking system is required within 8 inches of the floor to delineate the exit path.
- Introduction to Fire Fighting
- Fire Systems Classification
- Fire Protection Systems
- Fire Fighting Systems Control
- A Brief history about Firefighting
- History of Fire Sprinkler Systems
- History of Fire Detection
Pressurisation Systems in residential and commercial buildings
Pressurisation Systems CPD
Approved Document B to the Building Regulations requires smoke ventilation to escape stairs and, under some circumstances, common lobbies and/or corridors in residential buildings. Pressurisation is one way of meeting this requirement.
This seminar covers:
An explanation of the basic legislative requirements and how these are achieved
The various design approaches
Specifying the equipment
Firefighting equipment has evolved over time from simple buckets to modern systems. Early methods used sand and water buckets that could only extinguish small fires, requiring many people. Fire hydrants attached to pressurized water mains allowed larger fires to be fought faster if operated properly, but required training. Fire hoses connected hydrants to water sources inside and outside buildings. Sprinklers were developed to automatically douse fires, but had slow detection and limitations. Modern water spray systems like those used on transformers respond even faster to contain fires. A variety of equipment is now available to effectively address different fire risks and situations.
Comparision between NFPA and TAc rules for Power plantsvakil jagdish
The document compares rules for fire protection systems in power plants according to NFPA and TAC standards. Key differences include:
- NFPA has more detailed standards while TAC relies more on recommendatory codes
- NFPA requires hydraulic calculations, automatic systems, standby pumps, and prohibits combined water mains. TAC allows thumb rule sizing and non-automatic systems.
- NFPA has stricter requirements for pipe sizes, pressures, spacing, and protection of areas. TAC requirements are less stringent.
HVAC systems are designed to heat, cool, and ventilate indoor spaces for human comfort. Heating increases temperature while cooling decreases it. Ventilation maintains indoor air quality through exhaust and fresh air. Air conditioning alters temperature, humidity, and air quality. Common HVAC systems include window units for single rooms, split units with indoor and outdoor components, packaged units for medium loads, and central air for large buildings. Vapor compression is the most widely used refrigeration cycle, involving an evaporator, compressor, condenser, and expansion valve.
2. כיבוי אש, חילוץ והצלה
" סער"
מפרט טכני
שלדה
תוצרת מרצדס דגם
4321
מרכב
תוצרת " התכוף" הנעה
4 *4
מנוע
הספק של 043 כ" ס
משקל כללי
999,41 ק" ג
תא צוות ל-5 כבאים
מיכלים
מים – 000,3 ק" ג
קצף 003 ליטר
משאבה
צנטריפוגלית בהספק של
004,2 ל/ ד בלחץ של 01
רכב חדיש ביותר, מכיל מגוון רחב של ציוד בר ולחץ גבוה בהספק
ואמצעים המאפשרים לפעול בכל סוגי האירועים של 002 ל/ ד בלחץ של
3. כיבוי אש " ברק"
מפרט טכני
שלדה
תוצרת מרצדס דגם
814D
מרכב
תוצרת " התכוף" הנעה
4 *4
מנוע
הספק של 041 כ" ס
משקל כללי
005,7 ק" ג
תא צוות ל-3 כבאים
מיכלים
מים – 000,1 ק" ג
משאבה
צנטריפוגלית בהספק של
רכב חדיש קל משקל, מכיל ציוד ואמצעים 006,1 ל/ ד בלחץ של 8
בר ולחץ גבוה בהספק
המאפשרים לפעול בשטחים פתוחים ובתנאי שטח של 002 ל/ ד בלחץ של
4. כיבוי אש ואספקת מים
" אשד"
מפרט טכני
שלדה
תוצרת איווקו מגירוס דגם
044
מרכב
תוצרת " מגירוס"
הנעה 4*6
מנוע
הספק של 044 כ" ס
משקל כללי
000,72 ק" ג
תא צוות ל-3 כבאים
מיכלים
מים – 000,21 ק" ג
קצף – 000,1 ליטר
משאבה
רכב כיבוי אש " כבד", מסוגל לפעול עצמאית בכל צנטריפוגלית בהספק של
סוגי האירועים, משמש לכיבוי שריפות בתעשייה 004,2 ל/ ד בלחץ של 01
בר
ואירועי חומ" ס, ואספקת מים לצוותי הכיבוי
5. חילוץ והצלה " געש"
מפרט טכני
שלדה
תוצרת מאן דגם LF280B
מרכב
תוצרת " התכוף" הנעה
4 *4
מנוע
הספק של 082 כ" ס
משקל כללי
999,41 ק" ג
תא צוות ל-3 כבאים
רכב חדיש ביותר, מכיל מגוון רב של ציוד ואמצעים המאפשרים
לפעול בכל סוגי האירועים לחילוץ והצלה.
6. חילוץ והצלה " וולקן"
מפרט טכני
שלדה
תוצרת מרצדס דגם
410D
מרכב
תוצרת " פרץ כיבוי
אש והצלה" הנעה
2 *4
מנוע
הספק של 521 כ" ס
משקל כללי
006,4 ק" ג
תא צוות ל-3 כבאים
באירועי חילוץ והצלה. רכב ייעודי. מכיל ציוד ואמצעים לטיפול
חומרים מסוכנים. משמש גם כרכב קו שני לטיפול באירועי
7. משימתי – כיבוי אש וחילוץ
מפרט טכני
שלדה
תוצרת ג' י. אם. סי דגם
0053
מרכב
תוצרת " בית אלפא" הנעה
4* 4
מנוע
הספק של 091 כ" ס
משקל כללי
005,5 ק" ג
תא צוות ל-3 כבאים
מיכלים
מים – 002 ליטר
קצץ – 000,1 ליטר
רכב כיבוי וחילוץ " קל", מכיל ציוד ואמצעים
משאבה
המאפשרים לפעול באירועי כיבוי אש וחילוץ
צנטריפוגלית בהספק של
מתאונות דרכים ואירועים אחרים. דגם זה קיים גם 006,1 ל/ ד בלחץ של 8
בתצורה של רכב חילוץ בלבד ללא מיכל מים בר
8. מנוף גבהים " נשר"
מפרט טכני
שלדה
תוצרת דאף, דגם 85CF
מרכב
תוצרת ברונטו דגם F42HDT
מנוע
הספק של 083 כ" ס, הנעה
4 *6
משקל כללי
000,72 ק" ג
תא צוות ל-3 כבאים
רכב חדיש ביותר, מצויד במנוף גבהים משוכלל המתנשא לגובה של
24 מטר. מאפשר ביצוע פעולות כיבוי אש, חילוץ והצלה בגבהים
שונים. הסל מאפשר חילוץ של עד 4 לכודים בעת ובעונה אחת.
בנוסף, קיים סולם לכל אורך המנוף, המאפשר פינוי לכודים עד
9. סולם גבהים " נץ"
מפרט טכני
שלדה
תוצרת E-ONE
מנוף
תוצרת E-ONEדגם 59, 03
מ'
מנוע
הספק של 054 כ" ס,
הנעה 4*6
משקל כללי
000,72 ק" ג
תא צוות ל-5 כבאים
מיכלים
מים 0 00,3 ליטר
רכב יחודי המצויד במיכל מים ומשאבה עצמאיים קצף – 003 ליטר
המאפשרים ביצוע פעולות כיבוי אש. מצויד בסולם משאבה
המתנשא לגובה של כ- 03 מטר המאפשר ביצוע פעולות צנטריפוגלית בהספק
חילוץ והצלה בגבהים שונים. הסל מאפשר חילוץ של עד של 008,3 ל/ ד בלחץ
של 01 בר
4 לכודים בעת ובעונה אחת.
10. סולם גבהים " נץ"
מפרט טכני
שלדה
תוצרת " איווקו" דגם
VARIO
מנוף
תוצרת " מגירוס" דגם
73DLK
מנוע
הספק של 622 כ" ס,
הנעה 2*4
משקל כללי
999,41 ק" ג
תא צוות ל-3 כבאים
רכב יחודי. מצויד בסולם המתנשא לגובה של כ- 73 מטר, מאפשר
ביצוע פעולות כיבוי אש, חילוץ והצלה בגבהים שונים. הסל מאפשר
חילוץ של עד 2 לכודים בעת ובעונה אחת. נמצא בשימוש שירותי
כבאות והצלה רמת- גן.
11. טיפול בחומרים מסוכנים " אלמוג"
מפרט טכני
שלדה
תוצרת מרצדס דגם
4321
מנוף
תוצרת " התכוף" הנעה
4 *4
מנוע
הספק של 043 כ" ס
משקל כללי
999,41 ק" ג
תא צוות ל-5 כבאים
רכב יחודי לשירותי הכבאות וההצלה. מכיל ציוד רב ואמצעים לטיפול
משלים באירועי חומרים מסוכנים. כולל תא פיקוד ושליטה למפקד
האירוע. משמש כרכב קו שלישי לטיפול באירועי חומרים מסוכנים.
נמצא בשימוש ב-9 רשויות כבאות והצלה הנמצאות באזורי סיכון
12. פיקוד ושליטה " קיסר"
מפרט טכני
שלדה
תוצרת מרצדס דגם 814D
מנוף
תוצרת " בית אלפא""
הנעה 4*4
מנוע
מנוע
הספק של 541 כ" ס
משקל כללי
005,7 ק" ג
תא צוות ל-6 בעלי
תפקידים
רכב יחודי לשירותי הכבאות וההצלה. מאפשר פיקוד ושליטה
באירועים גדולים. הרכב מצויד באמצעי קשר ותקשורת מגוונים וכן,
בעזרי מטה ושליטה יחודיים המאפשרים לנהל אירועים מתוך ובסמוך
לרכב. נמצא בשימוש תחנות כיבוי אש מחוזיות.
13. פיקוד ושליטה " קיסר"
מפרט טכני
שלדה
תוצרת ג' י. אם. סי. דגם
סוואנה 0052
מרכב
תוצרת " פרץ – כיבוי אש
וחילוץ" , הנעה 2*4
מנוע
הספק של 571 כ" ס
משקל כללי
009,3 ק" ג
תא צוות ל-6 בעלי
תפקידים
רכב פיקוד ושליטה יחיד מסוגו. משמש את נציב כבאות והצלה ומפקח
כבאות ראשי לפיקוד באירועים כלל ארציים גדולים ו/ או מיוחדים.
הרכב מצויד באמצעי קשר ותקשורת מגוונים וכן בעזרי מטה ושליטה
14. פיקוד " סלע"
מפרט טכני
ייצור
תוצרת איסוזו דגם
טרופר
מנוע
הספק של 061 כ" ס הנעה
4 *4
משקל כללי
037,2 ק" ג
תא צוות ל-5 בעלי
תפקידים
רכב פיקוד יעודי המשמש את המפקדים בשרותי הכבאות וההצלה.
מאפשר פיקוד ושליטה על כוחות באירועים כרכב חפ" ק.
15. משימתי – טרקטורון כיבוי
מפרט טכני
שלדה
תוצרת " פןלריס" דגם
רנג' ר
מנוע
הנעה 6*6
משקל כללי
059 ק" ג
כלי רכב יעודי לכיבוי שריפות בשטחים פתוחים. בעל עבירות גבוהה
ביותר בכל סוגי השטחים. קיים במספר דגמים, נגרר על ידי רכב כיבוי
באמצעות עגלה נגררת. נמצא בשימוש רק בחלק מתחנות שירותי