FIRE TRUCKS AND VEHICLES(780)
Pierce’s timeless industry-standard chassis now offers big improvements. The all-new Saber® chassis was built with the value-driven firefighter in mind – delivering advanced visibility, greater space, improved ergonomics, and streamlined serviceability at an affordable price. Visibility and space Exceptional visibility is achieved through a large, bonded, single-piece, wrap-around windshield The smaller engine tunnel is lower and more contoured for increased occupant space, particularly up front for the driver and officer The forward roof design offers a cathedral ceiling feel with increased frontal visibility and more configurable space Ergonomics Exterior door handles are functionally designed for a firefighter’s gloved hand The steps are lower to the ground and offset to function like a stair step, making it easier for firefighters to enter and exit the cab The console and metal overhead switch panel are ergonomically designed for maximum convenience and comfort, keeping all of the gauges & switches within easy reach of the driver Serviceability Easy access to the defroster & wiper motors through removable officer-side panels Power distribution relocation provides more interior space and fewer harnesses in the frame & up through the cab for easier servicing Built-in wire raceways throughout the cab reduce the chance of wire chaffing & make it easier to service or add cab harnesses & wiring Maneuverability Maximum 50-degree cramp angle and 15-degree angle of approach for improved maneuverability in tight areas and challenging situationsAdd to Compare
The Edwards Signaling 872DPO-R5 projector vibrating horn is a 240 V AC low-current, high decibel double horn for heavy-duty, indoor use. The double projector is designed for bi-directional signalling without decibel loss. Supplied complete with mounting plate for easy installation. It is used in industrial, commercial, and institutional applications for timing, paging, and alarm signalling.
The Bio-Ex FLUOFOAM 1 is a fluorosynthetic foam AFFF, based on the combination of surfactants selected for their foaming property and their resistance to dehydration and heat. Foaming power: FLUOFOAM 1 is usable at Low Expansion. This fluid foam is not contaminated on hydrocarbons and enables a forceful application. FLUOFOAM 1 is usable at medium expansion to create a foam blanket to protect against burn back. Fuel fires: FLUOFOAM 1 is efficient on all hydrocarbon fires, such as diesel, kerosene, petrol and so on Environment: FLUOFOAM 1 is easily biodegradable FLUOFOAM 1 can be used with tap water, sea water and brackish water at 1% on hydrocarbon fires. It is compatible with dry extinguishing powders and it is suitable with all kind of known equipment.
The Savox C-C500 is a multi-purpose remote speaker microphone that can be used with or without a headset. The durable and waterproof (IP 67) Savox C-C500 is a communication solution that provides various optional functions for different types of applications, even when used in potentially explosive environments (ATEX Approved). Additionally, the internal microphone and speaker is equipped with interface electronics and a rugged quick release jack that adapts any type of headset to your two-way radio. Thanks to the two large push-to-talk buttons, transmission is secured, even when used from inside of protective gear and clothing. Key benefits: Can be used with or without a headset Adapts any Savox headset to your two-way radio Two large push-to-talk buttons Durable and water resistant (IP67) Rotating belt clip Ergonomic Optimal size
The CPF Industriale AS748 outdoor fire cabinet is corrosion-proof and ISO 9227 rated. It comprises a flexible fire hose approved in compliance with EN 14540. It includes features such as black rubber heads, hose holder support and seal lock. Its simplified drilling offers easy installation.
Bauer Compressors P0 air purification system purifies high pressure air to a quality that meets or exceeds the requirements of CGA Pamphlet G-7, compressed air for human respiration, ANSI / CGA G-7.1, commodity specification for Air, Grade E, and all other recognised standards for breathing air. The Bauer P0 processes 3,200 cf of air per cartridge at standard inlet conditions.
The Carson SC-1002 Volunteer siren features the Horn Ring Cycler (HRC2) function that enables the driver hands-free control of the siren by cycling through the tones with the vehicles horn. Two lighted rocker switches are also included for controlling emergency lights. This siren is designed to work with a 100-watt speaker and ensures you the strength to get you where you need to go and be heard like one of the big fire trucks. The siren tones may be changed or disarmed using an internal Dip switch. An output indicator light is on the face of the siren for diagnostic purposes. The light controls are capable of switching up to 20 amps. The siren is LED backlit and is installed using heavy duty screw down terminals for power and a detachable connector for the speaker and lights. The amplifier and light controls are fused separately on the back of the unit. As with all Carson Sirens products, the SC-1002 Volunteer is backed by a no-hassle 5-year limited warranty. The SC-1002 Volunteer Siren offers the reliable performance, and rugged durability with consistent quality that comes with every Carson Siren.
a.b.s Fire Fighting 53224, part of CHAMPION SUPER, is a fire hose made externally in polyester, while the inner lining is EPDM elastome. The fire hose is resistant to weather, aging and mould. It is also light and handy, enabling storage in small cabinets.
Edwards 439 Series fire alarm bells are diode polarised, vibrating bells for use with fire alarm equipment. They operate in conjunction with an installed fire alarm panel and detection devices. The steel alloy gongs are epoxy powder finished and produce a loud, resonant tone required in fire alarm systems.
On a Peugeot Boxer, Citroen Jumper, Fiat Ducato L3H2 van base. This long, wide-bodied van has all the features of the VSAV for medical use with the option of transporting a second slightly injured person lying down. Its design, based on the latest technology, has reduced joints by 80% to facilitate disinfection. Its interior polyester cladding is embedded in the sides, increasing the width by 15 cm and allowing suspended cupboards to be built in all along the stretcher.Add to Compare
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Want to know an easy way to judge the quality of a fire department? Look at how much they train. Career, volunteer or combination, fire departments become successful through training. Yet all training is not equal. Focus too much on hands-on training (HOT) and you could be missing important legal and compliance updates. Lean heavily on web-based training and you may fail to identify shortcomings in skills proficiencies. Keep students confined to a classroom and you may lose their interest quickly. Not surprisingly, a balance of all three types of training is needed to produce competent, empowered firefighters. For this article, I was challenged to think about what’s missing from our current fire training programs. As I thought about the varied way we approach fire training, three issues jumped out at me. Base training on facts and statistics Take advantage of new technologies Incorporate policy into your training Your training program should also be strong in the types of calls you respond to most Base Training On Facts And Statistics If your department has a robust training program, outlined by a calendar of various topics and employing a mix of HOT, online and classroom training, you’re ahead of the curve. But even in departments with well-developed training programs, training is often based on preference or habit, not data. Think about the topics in your training program. Do you know why they’re included? Do they match your call make-up? Are they targeting specific skill shortcomings? (And yes, we all have them!)What’s missing from many fire department training programs is a detailed needs assessment What’s missing from many fire department training programs is a detailed needs assessment that in turn establishes a factual basis for the year’s training topics. The needs assessment should include: Surveying the members to determine the types of training they want or feel they need. Measuring firefighter proficiency on basic tasks, such as NFPA 1403 drills, NFPA 1710 drills and EMS patient assessment skills audits, to assess personnel by mandate or by industry best practice. This will identify skills deficiencies to address through training. Incorporating call volume statistics and details. A significant percentage of the calls fire departments respond to are EMS and vehicle extrication But I’d venture to guess the training programs of most departments don’t match those percentages. Yes, you need to train for the high-risk, low-frequency tasks. But your training program should also be strong in the types of calls you respond to most. Incorporating these “facts and stats” into your training program will help you keep it fresh, relevant and interesting. Firefighters can use their phones and tablets to access department training information and complete training assignments Take Advantage Of New Technologies There is something to be said for back-to-the-basics, keep-it-simple firefighter training. But it’s a mistake to ignore technological advances. From teaching safe apparatus backing procedures to practicing hoseline deployment and Vent/Enter/Isolate/Search (VEIS) tactics, instructors have more options than ever before. Some instructors regard simulators as second-rate to “the real thing.” Certainly, simulation and other forms of technology-driven instruction can’t replace the value of hands-on experience. But they can augment it in important ways. Driver simulators, for example, not only save money because apparatus don’t have to be taken out of service or sustain wear and tear; they also provide an environment where firefighters can learn without risk of injury. If sitting behind a computer isn’t your kind of thing, live-burn simulators, vehicle fire simulators and hazmat simulators are available—and they all significantly boost training efficiency.Technology will never replace hands-on instruction, but it can facilitate it But you don’t need fancy simulators to incorporate technology into your fire training program. Learning management systems (LMS) are another important tool that can increase training program efficiency. Although they’ve been around for a long time, LMS continue to improve. The ability to integrate with mobile devices is huge, allowing firefighters to use their phones and tablets to access department training information and complete training assignments. Leveraging this technology can allow you to more efficiently manage information, schedule training and free up valuable time needed for other important tasks. If you’ve attended some of the larger regional or national fire conferences recently, you may have had the opportunity to see audience response technology in action. By capturing the firefighters’ responses to questions in real-time, instructors can adjust the material to reflect students’ knowledge level. Audience response is also simply a great way to keep firefighters engaged. Technology will never replace hands-on instruction, but it can facilitate it. If you’re using training methods that haven’t changed in decades, something’s missing from your training program. Without incorporating policy into your training, you’re only giving your firefighters half the equation Incorporate Policy Into Your Training I saved the biggest and best for last. When I work with fire departments across the country, I repeatedly discover the failure to incorporate policy into training. Think about it: Training curricula are almost always designed around procedures—the how of doing something. But isn’t the why just as important? And that’s what policy is all about. Without incorporating policy into your training, you’re only giving your firefighters half the equation.Inevitably firefighters will encounter times when following the procedure isn’t possible Inevitably firefighters will encounter times when following the procedure isn’t possible. That’s when policy training kicks in—firefighters understand the fundamental objective, and they can think on their feet about how to achieve it. Training on policy also helps departments address the issues that so often get firefighters into trouble. How many of your firefighters really understand your department’s social media policy? What about the rules surrounding sick time usage? These are things that trip up firefighters time and time again. If you’re not training on policies, it’s unlikely firefighters remember them. How many of your firefighters really understand your department’s social media policy? In addition, normalization of deviance is a risk to every organization. When personnel fail to follow policies and no negative repercussions result, it can quickly establish a new normal. Policy-based training resets the “normal” and makes sure that members of the organization comply with the policy and not what they think the policy says.Most line-of-duty death reports cite failure to comply with policy or lack of adequate policy Fire instructors often avoid training on policy because they regard it as boring or unrelated to what really matters—firefighter safety and survival. Yet most line-of-duty death reports cite failure to comply with policy or lack of adequate policy as contributing factors in the incident. If you’re worried that policy will make your training program dry and uninteresting, link it to real-world events. An online search provides lots of examples of when things went wrong and how adherence to policy might have produced a different outcome. And limit policy training to small chunks. Take out a 10-page policy and go through it line by line, and your students’ eyes will glaze over in seconds. Instead, look for ways to enrich your current training by bringing relevant pieces of policy into it. Your firefighters will be learning the department’s policies without even realizing it! Focus On Continuous Improvement Fire chiefs and fire instructors have a challenging job. Budgets are tight, and training is often one of the first things to be cut. Yet we need firefighters to be proficient in all-hazards response. Every department has a long training wish list. But if we focus on continuous quality improvement, we can get a little better each year. Looking for opportunities to incorporate statistics, technology and policy into our training is a good place to start.
Within traditional commercial and industrial firefighting systems, engineers have primarily focused on permanent installation designs rather than entertaining alternative or supplemental mobile firefighting systems. Permanent installation design is typically better understood, supported, and supplied throughout the fire protection engineering and manufacturing community. However, mobile firefighting systems provide unique solutions and advantages compared to their permanent installation cousins such as flexible deployment, simpler servicing, improved economy, and much higher performance availability. The combination of both systems is frequently the most strategic solution for the facility operator. Limitations of fixed installation systems Permanent installation (fixed) systems include everything from sprinklers, foam systems, primary watermain pumps, and the plethora of piping in between. A large refinery complex will need to address various hazard mitigation and control problems that span both hardware and personnel needs. In the event standard hazard mitigation safety procedures and equipment have failed, the facility immediately initiates a hazard control operation. Passive fixed systems automatically engage the hazard through an array of sensors, mechanical triggers, and control algorithms. A properly designed system with adequate hazard coverage, preplanning, preventative maintenance, and testing will successfully terminate the hazard, while firefighting personnel respond and ensure no further hazards develop. This conceptual approach relies on hardware and personnel all operating as planned…. Combining permanent and mobile apparatus “According to plan” would never have any failures or fires, but history has a different script. In the worst-case petrochemical scenario, fixed systems fail to extinguish a hazard putting the entire response on human and mobile hardware resources. This would include but is not limited to firetrucks, mobile high-flow pumping systems, large mobile monitors, foam proportioning units, and large diameter layflat hose. This type of response escalates into a larger scale operation, sometimes involving agencies beyond the facility operator itself. Although a low probability event, the risk to life and property is significantly substantial. Fixed systems may be rendered inoperable due to the loss of electrical power or actual physical damage Reducing fire-related expenditureMore typical than the worst-case scenario, facilities experience both maintenance-related system downtimes and natural phenomena damage such as extreme weather and seismic events. In this case, fixed systems may be rendered inoperable due to the loss of electrical power or actual physical damage. In any of these situations, mobile fire apparatus may fill the gap requirements of the facility as their flexible storage and deployment would protect them from everything but the worst natural disasters. Their further benefit is that a smaller set of mobile apparatus resources may be used to protect a larger amount of infrastructure, especially while in use in a mutual-aid program between facilities and communities. According to the NFPA’s report “Total Cost of Fire in the United States”, fire-related damages and expenditures from 1980 to 2014 have risen from roughly $200B (adjusted for inflation to 2014) to nearly $330B. The greatest expenditure is in fire safety costs in building construction, amounting to $57.4B. Although the overall losses per year as a ratio to protection expenditures has dropped by roughly 70% over the past 30 years, petrochemical facility losses have continued to rise over the same time. In the worst-case petrochemical scenario, fixed systems fail to extinguish a hazard Petrochemical facility challenges According to the NFPA, refineries or natural gas plants had reported an average of 228 fires or explosions per year through the 1990s. Furthering this data with Marsh’s “100 Largest Losses, 25th edition”, refinery losses have continually expanded throughout the last two decades with 11 of the top 20 largest losses of the past 40 years happening during or after the year 2000. Two primary drivers of this trend are the advanced age of petrochemical facilities and their staggering complexity. As oil margins fall, upstream operational businesses are detrimentally affected by reduced investment in everything to new equipment, maintenance and passive safety systems. There is an observable correlation between a major oil price drop followed by upstream facility fire losses. Even with reduced investment and oil throughput growth rates, US refinery utilisation at the end 2017 was at 96.7%, the highest since 2005 (Marsh, The Impact of the Price of Oil). The short story is that systems and personnel are being asked to do more with less with each passing year. Cost-effective mobile apparatus systems Mobile fire apparatus is generally more cost-effective to procure when using standardised designs and application methodology. They can access open water sources by either drafting (when in close proximity to the water) or using floating source pumps (for variable level or difficult access water sources). Mobile fire apparatus is generally more cost-effective to procure when using standardized designs and application methodology With this open water access, they can provide significantly more water (upwards of 10,000 GPM or more per system if necessary) than any typical fixed fire pumping solution. Moreover, as their primary benefit, they are easy to move and deploy. This benefit allows them to be utilised at the point of hazard as needed while being easily accessible for service. While fixed systems are installed at “every known” hazard and must be continually maintained to operate effectively, mobile systems may be used sitewide or across facilities. This flexibility reduces overall capital expenditure requirements and establishes a valuable primary and secondary firefighting system depending on the hazard and facility resources. Combining fixed and mobile systems Permanent installation fire suppression systems are a mainstay of modern day firefighting. They provide immediate passive response with little human intervention. However, as facility utilisation is pushed to maximum capacity while fixed systems continually age out without adequate replacement or maintenance, mobile systems will need to both fill the response gap and provide a final wall to total loss incidents. The reality is that both fixed and mobile systems need to work together to provide the safest possible operation. Service and training requirements need to also be maintained to manage an adequate, or even better, exemplary response to hazard control incidents. Managing major facility uptime requires continuous oversight and to drive hazard mitigation standards throughout the organisation, including executive management. A safe, reliable and fully-functional plant is also a profitable and cost-effective plant much like a healthy worker is a better worker. Protect your people and property and you will protecting your company’s future.