Units industry rescue kits, tools, appliances
Make FireRescue1 your homepage. Whether hydraulic, pneumatic or electric, each extrication tool power source has advantages and disadvantages; here's how they break down. Remember the days when pry bars, hacksaws and axes were pretty much the only tools available for vehicle extrication? Those human-powered tools still have application, but today's responders can pick from a wide variety of hydraulic, pneumatic and electrical tools. Nearly every fire department across the United States is involved in a vehicle extrication incident, and every firefighter should have a good working knowledge of the powered extrication tools their department carries. So let's take a look at the three predominant operating systems being used in today's powered vehicle extrication equipment: hydraulic, pneumatic and electric.VIDEO ON THE TOPIC: 25 Must Have Items for Your Car Emergency Kit pt1
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This best practice guide will provide practical guidance to employers, contractors, employees and all others engaged in work associated with working at height. While this guidance has not been updated to reflect current work health and safety legislation the Health and Safety at Work Act and regulations , it may still contain relevant information and practices to keep workers and others healthy and safe. Please read this guidance in conjunction with all relevant industry standards that apply to you as a PCBU.
This guidance will be progressively reviewed and either updated, replaced with other guidance, or revoked. Preventing falls from height is a priority for the Ministry of Business, Innovation and Employment and it expects that work at height is actively managed so that people are not harmed. More injuries happen on residential building sites than any other workplace in the construction sector.
In the Ministry of Business, Innovation and Employment initiated a targeted harm reduction programme to address the issue through the Preventing Falls from Height Project.
These guidelines are a critical element of the programme and will give all who are involved with working at height clear direction on how to manage the work in a way that will bring down the death and injury toll. People with a duty must take all practicable steps to ensure the safety of workers when they are exposed to a fall or where the hazard of a fall exists.
Where the potential of a fall exists, the following simple hierarchy of controls shall be considered by duty holders:. Many industries have their own guidelines that address the specific issues which are unique to their working environments, for example, the electricity sector. These also should be considered. A hazard assessment shall be carried out for all work at height. It is essential that the hazards are identified before the work starts and that the necessary equipment, appropriate precautions and systems of work are provided and implemented.
The Good Practice Guidelines Working at Height in New Zealand provide health and safety guidance to all people working at height and those involved in the planning and preparatory stages of any project that includes work at height. These guidelines and adherence to them may be relevant as evidence in a court. The guidelines apply to all people who have a duty legal obligation to provide a safe place of work and ensure safe work practice. A list of duty holders pursuant to the HSE Act is in section 8 of these guidelines.
Further information about working at height which supplements these guidelines is available on the Working safely at height page on our website.
These guidelines outline best practice methods for assessing the hazard of working at height and the control methods for preventing falls. Work at height means working in a place where a person could be injured if they fell from one level to another. This can be above or below ground level. It is mistakenly believed that no controls are needed where a person faces a fall of less than three metres. That belief is wrong and ignores the overarching duties in the HSE Act.
The HSE Act requires that if there is a potential for a person at work to fall from any height, reasonable and practicable steps must be taken to prevent harm from resulting. Short duration work at height shall be treated the same way as any other activity at height.
Appropriate fall prevention controls shall be put in place, regardless of the time duration of the task. Short duration work means work that lasts minutes rather than hours. It may not be reasonably practicable to provide full edge protection for short duration work but it still needs to be considered during the assessment of hazards and should not be discounted.
Too many falls from height are caused by a failure to plan and organise work properly. Start by planning a safe approach. Identify any hazards of working at height where someone could fall.
Four ways of identifying hazards are:. Decide if the identified hazards are significant. How badly harmed someone would be if they fell and how likely a fall could be? Select the best work method to eliminate , isolate or minimise in that order the potential for harm resulting from the significant hazard. A combination of controls may need to be used to control the hazard. However, eliminating the hazard is the best option.
But remember, doing nothing is not an option. Where unguarded trestles or platforms are used, or the work will be done from a ladder or stilts, the risk of harm shall be minimised through management controls and the provision of appropriate training. Management controls include effective housekeeping protocols and clear procedures for safe use of the equipment. As well as the hierarchy of controls, think about the controls that protect multiple people from falling.
These are group controls. Personal controls only look after individuals and rely on active judgement by the user for them to work safely eg fall restraint harness and fall arrest. Training, inspection and equipment maintenance are critical for these personal control measures to be effective.
Figure 2 provides assistance for selecting the best equipment for keeping people safe at height. This figure steps through a comprehensive range of possible controls, starting with the most effective — elimination, and then working through isolation and minimisation. The approach should be constantly assessed to ensure it is effective and fit for purpose. This could mean carrying out regular inspections of the control measures, discussing the control measures at tool box talks and site meetings with contractors, and actively supervising the work.
A good record of the planning process and communications with clients, contractors, workers, and other site visitors should be maintained. The best method of hazard control is eliminating the potential of a fall. Consideration of elimination controls should occur early in the project development stage in order to allow necessary design, planning and coordination. Eliminating the potential of a fall can be achieved through:.
Examples of tools and equipment include using long-handled tools, such as paint rollers or window brushes with extendable handles, thereby eliminating the need to work from a ladder. This section outlines a range of controls to isolate or minimise the potential for harm resulting from a fall. The preferred approach is to apply group controls that isolate multiple workers from the risk of falling. Controls such as harness systems and temporary work platforms provide a lesser form of protection, and should only be considered when group controls are not practicable.
Scaffolds are a common way to provide a safe work platform. There are a wide variety of scaffolding systems available. All scaffolds should be erected, altered and dismantled by persons who have been trained and have suitable experience with the type of scaffolding being used.
All scaffolds from which a person or object could fall more than five metres, as well as all suspended scaffolds, should be erected, altered and dismantled by or under the direct supervision of a person with an appropriate Certificate of Competency. This work must be notified to the Ministry of Business, Innovation and Employment as particularly hazardous work.
A scaffold register should be kept on site as a record of regular inspection. More information about Notification of Particular Hazardous Work can be found in section 8. All scaffolds shall be supplied with adequate information for the scaffold user, such as a scaffold tag or handover certificate. The information supplied shall include:. Where work is performed using mobile scaffolds, employers should ensure that workers understand that the scaffold should:.
Where a scaffold is used as a means of protecting people working on a roof, it is preferred that the scaffold is set up in a manner that prevents a fall from occurring, regardless of the distance of the fall. Edge protection is used to prevent persons, objects or materials from falling. Areas where the likelihood of a fall exists and edge protection should be used include:.
Edge protection may be temporary, for example during the course of construction. It may also be used in completed buildings, for example a permanent balustrade preventing a fall from a mezzanine floor. Persons erecting edge protection could potentially be exposed to the hazard of working at height until the installation is completed. Pre-planning, such as a task analysis and a hazard analysis, will identify the hazards involved and which controls can be implemented to prevent harm during the erection process.
Installation workers must have hazard controls in place. A guardrail is a barrier that is capable of physically preventing workers from falling. Guardrails are a group control that can be installed to protect workers from building edges, roof edges, building openings, lift shafts and other similar ducts with wall or floor openings. A guardrail must be constructed to withstand the forces that are likely to be applied to it during as a result of the work.
Temporary guardrails should generally be constructed using a proprietary metal tube and clip system. General guardrail systems shall be between mm and mm in height with a single mid rail located halfway between the work platform and the top rail.
If there is a potential for tools or objects to be dropped during work a toe board should also be installed. Guardrail systems that are installed to protect an edge of a sloping roof surface have specific design requirements because of the increased potential for workers to fall against them and the potential for a person to slip under the mid rail.
Guardrail systems for sloping roofs shall be configured to prevent a worker sliding between the roof surface and the rails. It is important that such systems are installed by a competent person. If the slope of the roof exceeds 25 degrees, a roof ladder should be used in addition to perimeter guardrails or a harness system to reduce the likelihood of worker slipping. Floor openings may also be protected by a fit-for-purpose, fully decked working platform.
Work inside of shafts should, when practicable, be undertaken from a fully decked working platform; if this is not practicable, a harness system shall be used. Barriers should be used to cordon off elevated areas including roofs, balconies and open excavations where edge protection is not provided and people are not permitted access.
The barriers should be secure and with access restricted to authorised people only. Signs should warn against entry to a cordoned-off area. Barriers should be placed at least two metres in from any unprotected edge or opening. They should be highly visible and capable of remaining in place during adverse weather conditions. Temporary timber guardrails are sometimes used for edge protection. Timber edge protection shall be constructed by a competent person and extreme caution is required to ensure the appropriateness of all materials used.
Construction must take into account the forces that are likely to be applied to the edge protection as a result of the work undertaken. Mechanical access plant includes all mechanically operated plant that can be used to gain access for the purpose of working at height.
Commonly used mechanical access plant include:. These are specialised pieces of equipment often designed for particular types of operation. It is essential that the correct type of machine is selected for the intended work.
Rescue and Descent Devices
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A rise in the water table during heavy rainfall puts a number of UK properties at risk of flooding. It is reported that around 5 million people in England and Wales live in a flood risk area. The HSS range of breakers provides something for every type of breaking job; from demolition work to breaking pavement slabs. So you have chosen to re-sand your floor and have invested in floor sander hire.
Working at height in New Zealand
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Fire Fighting Equipments
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Rescue tools: Pros and cons of 3 power sources
Initially, these were exclusively for industrial applications, but they were soon followed by the first rescue tools and used by rescue teams. Lukas Rescue Equipment. Protective Clothing. Warning Lights. Electronic Sirens.
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Нестерпимая боль пронзила плечо, сдавила грудь и, подобно миллиону осколков, вонзилась в мозг.
- Стратмора, похоже, удивило ее недоумение. - Мне пришлось его проинструктировать. - Проинструктировать. Относительно .
Притормозив, он задумался, в какую сторону повернуть, и в этот момент мотор его веспы кашлянул и заглох. Стрелка топливного индикатора указывала на ноль.
И, как бы повинуясь неведомому сигналу, между стенами слева от него мелькнула тень. Нет сомнений, что человеческий мозг все же совершеннее самого быстродействующего компьютера в мире. В какую-то долю секунды сознание Беккера засекло очки в металлической оправе, обратилось к памяти в поисках аналога, нашло его и, подав сигнал тревоги, потребовало принять решение.
Он отбросил бесполезный мотоцикл и пустился бежать со всех ног. К несчастью для Беккера, вместо неуклюжего такси Халохот обрел под ногами твердую почву.
Сьюзан улыбнулась: - Уж ты-то мог бы это понять. Это все равно что изучать иностранный язык. Сначала текст воспринимается как полная бессмыслица, но по мере постижения законов построения его структуры начинает появляться смысл.