This document provides a summary of rotary hammers, combihammers, and breakers from Hilti including basic tool data, productivity data, and application information. The table lists each tool's dust removal system, sound pressure level, triaxial vibration value, time to reach exposure action value and exposure limit value for various drilling diameters and depths. It also shows the number of holes that can be drilled within set exposure limits. Overall, the document concisely summarizes the key technical specifications of Hilti's powered demolition tools in a single table for easy comparison between different models.
This document discusses the importance of ear protection from harmful noise. It notes that 30 million Americans are exposed to harmful noise at work and many more through recreational activities like concerts or firearms use. Ten million Americans have noise-induced hearing loss from exposure. The document provides decibel levels for common sounds and exposure limits, noting that sustained exposure over 90dB can cause damage. It recommends using earplugs rated at least 20dB for protection and choosing venues with more distance from noise sources to allow for longer safe exposure. Daily noise exposure should be avoided and music in headphones does not constitute protection.
Safety Moment - Personal Protection EquipmentJason Hardin
Halliburton promotes safety rules for properly maintaining personal protection equipment (PPE). The document outlines that before using any PPE, employees should identify potential hazards, properly maintain all equipment, and inspect each piece to ensure it is ready. Halliburton stresses that safety precautions begin with taking care of PPE, as equipment cannot protect workers if it is not properly maintained.
13 Initial Project Site Office Set-up Risk Assessment Templates
Working adjacent to public areas
Vehicles/Plant Equipment movements
Groundworks / excavations
Excavation in site area
Trial trenches, septic tank excavation etc.
Works at Height
(Office cabin set-up)
Use of Ladders and stepladders
Mobile Crane operation
(Cabin/unit placing)
Temporary electrics - offices
Site generators – offices and site
NEVER allow people to be below a suspended load at any time!
ONE TO ONE RULE:
All personnel should be two meter away from the load for every meter the load is above the floor
Toolbox talks are short daily safety discussions between supervisors and employees lasting 5-10 minutes. They address a specific safety topic for the day's scheduled work activities and potential hazards. Toolbox talks provide an opportunity for supervisors to emphasize safety concerns and procedures, and for employees to ask questions. Discussing actual and anticipated safety issues helps workers understand how to perform their jobs safely.
This document is a curriculum vitae for Muhammad Shoaib Sadiq, a Health and Safety Engineer. It outlines his personal and contact information, qualifications, certifications, and experience. He has over 30 health, safety, and environmental certifications and over 10 years of experience in roles ensuring occupational health and safety standards. As a Health and Safety Engineer, his responsibilities include developing and implementing health and safety policies, ensuring compliance with regulations, investigating accidents, and increasing safety awareness across organizations.
This document provides an introduction and overview of occupational safety and health management. It outlines the following key points:
- The training objectives are to understand safety management systems, communication channels, workplace hazards, hazard identification and control, incident investigation, and implications of ignoring safety rules.
- Workplace hazards fall under 5 categories and can be identified through walkaround inspections and job hazard analysis. The hierarchy of controls should be followed to control hazards.
- Management must be committed to safety and develop plans, programs, policies, procedures and processes. Ignoring safety can result in injuries, death, fines and lost productivity. Effective communication and incident investigations are also important.
This document discusses the importance of ear protection from harmful noise. It notes that 30 million Americans are exposed to harmful noise at work and many more through recreational activities like concerts or firearms use. Ten million Americans have noise-induced hearing loss from exposure. The document provides decibel levels for common sounds and exposure limits, noting that sustained exposure over 90dB can cause damage. It recommends using earplugs rated at least 20dB for protection and choosing venues with more distance from noise sources to allow for longer safe exposure. Daily noise exposure should be avoided and music in headphones does not constitute protection.
Safety Moment - Personal Protection EquipmentJason Hardin
Halliburton promotes safety rules for properly maintaining personal protection equipment (PPE). The document outlines that before using any PPE, employees should identify potential hazards, properly maintain all equipment, and inspect each piece to ensure it is ready. Halliburton stresses that safety precautions begin with taking care of PPE, as equipment cannot protect workers if it is not properly maintained.
13 Initial Project Site Office Set-up Risk Assessment Templates
Working adjacent to public areas
Vehicles/Plant Equipment movements
Groundworks / excavations
Excavation in site area
Trial trenches, septic tank excavation etc.
Works at Height
(Office cabin set-up)
Use of Ladders and stepladders
Mobile Crane operation
(Cabin/unit placing)
Temporary electrics - offices
Site generators – offices and site
NEVER allow people to be below a suspended load at any time!
ONE TO ONE RULE:
All personnel should be two meter away from the load for every meter the load is above the floor
Toolbox talks are short daily safety discussions between supervisors and employees lasting 5-10 minutes. They address a specific safety topic for the day's scheduled work activities and potential hazards. Toolbox talks provide an opportunity for supervisors to emphasize safety concerns and procedures, and for employees to ask questions. Discussing actual and anticipated safety issues helps workers understand how to perform their jobs safely.
This document is a curriculum vitae for Muhammad Shoaib Sadiq, a Health and Safety Engineer. It outlines his personal and contact information, qualifications, certifications, and experience. He has over 30 health, safety, and environmental certifications and over 10 years of experience in roles ensuring occupational health and safety standards. As a Health and Safety Engineer, his responsibilities include developing and implementing health and safety policies, ensuring compliance with regulations, investigating accidents, and increasing safety awareness across organizations.
This document provides an introduction and overview of occupational safety and health management. It outlines the following key points:
- The training objectives are to understand safety management systems, communication channels, workplace hazards, hazard identification and control, incident investigation, and implications of ignoring safety rules.
- Workplace hazards fall under 5 categories and can be identified through walkaround inspections and job hazard analysis. The hierarchy of controls should be followed to control hazards.
- Management must be committed to safety and develop plans, programs, policies, procedures and processes. Ignoring safety can result in injuries, death, fines and lost productivity. Effective communication and incident investigations are also important.
The tutorial provides a complete assessment of occupational and environmental noise risk assessment, engineering controls, and discussion regarding the need for hearing conservation program for at-risk workers. Occupational and environmental noise can affect hearing as well as stress the cardiovascular system and psychosocial aspects of worklife. Learn how to evaluate noise exposures and determine the best control measure. When noise controls cannot reduce or eliminate the risk, hearing conservations programs should be constructed to protect workers.
The document outlines a workshop on hazard identification and control. It discusses identifying hazards, exposure, root causes of accidents, and controlling hazards. It covers inspection, observation, job hazard analysis, incident investigation, risk analysis, and continual improvement of safety management systems. The overall goals are to explore effective hazard identification and control programs and discuss the identification and control process.
This document provides safety guidelines and definitions for a variety of workplace hazards and situations. It begins with definitions of key safety terms like safety, accidents, hazards, and risks. It then covers safety policies, audits, tags, programs and attitudes. Specific hazards and precautions are outlined for welding, gas cutting, sandblasting, painting, electricity, construction, scaffolding, confined spaces, and ladder use. The duties of safety officers and supervisors are defined. Causes and prevention of accidents involving manual handling, mechanical handling, poor housekeeping, hand tools, power tools, and hard tools are discussed.
Barricading construction site and excavation asifmorio
Barricades are objects placed across roads or open spaces to stop people. There are two types - hard barricades, which must support 90kg of force and be 0.95-1.15m high, and soft barricades, which are only suitable as short-term warnings. Barricades are needed for excavation work, which involves removing soil or rock using tools or machinery, to form holes or cavities and occurs on construction sites, business premises, and public areas, posing hazards like collapsing soil, underground utility lines, falling in, and flooding.
The document outlines general safety requirements for a construction site. It covers topics like safety vision and objectives, site rules, personal protective equipment, welfare facilities, reporting incidents, emergency procedures, safety inspections, training, and motivation. It also discusses common workplace hazards like housekeeping, fire, working at heights, electricity, and manual handling and provides solutions to address them. The overall purpose is to establish safety policies and procedures to protect workers' health and safety at the construction site.
1) The document discusses hearing protection in the workplace and outlines OSHA regulations regarding noise levels and hearing conservation programs.
2) It states that exposure to noise levels over 85 decibels over an 8-hour period can risk hearing loss and requires a hearing conservation program.
3) The hearing conservation program includes measuring noise levels, requiring hearing tests for employees, and the use of hearing protection devices like earmuffs or earplugs to reduce noise exposure to safer levels.
Only qualified & competent personnel shall be permitted to work with electrical equipment only if they labelled with designated color coding for the respective month.
Competent personnel must be trained to recognize and avoid hazards with respect to equipment or work methods and must be familiar with applicable codes and standards.
All wiring shall have appropriate internal and external grounding.
Never bridge fuses and use appropriate rating of fuses for replacement.
De-energize all lines on which work will be performed, apply padlocks and lockout tags procedure, and this should be performed as per the Permit to Work System.
All temporary power supplies, used to provide power for electrical hand tools, must incorporate RCD’s (residual Current Devices) or ELCBs (Earth Leakage Circuit Breakers) that will trip at a leakage of 30 MA.
Trip test to be conducted weekly and recorded.
The use of 110v electrical equipment and hand tools on site is recommended, whenever possible.
All metal conductive parts within an arm reach from electrical power source shall be properly grounded to facilitate the operation of protection device in case of failure.
Live parts of electrical equipment operating at 50 volts or more must be guarded against accidental contact at all times.
Exposed non-current carrying metal parts of cord-and-plug-connected equipment that may become energized must be grounded.
A work permit document outlines the type of work, location, equipment, time required, hazards, and safety precautions for a task. There are various types of work permits including hot work, cold work, chemical/acid work, work at height, excavation, electrical, confined space, vehicular/earthmoving equipment, and radiology permits. Hot work permits cover tasks involving heat, fire or sparks like welding, cutting, drilling, grinding, and sandblasting. Each task outlines its hazards like burns, sparks, fumes, and required safety equipment like fire extinguishers, protective clothing, ventilation and more.
15 Formwork (Temporary Works) Risk Assessment Templates
Access to work areas by personnel and plant.
Material delivery to work area;
Formwork installation
(Classified as Temporary Structures)
Housekeeping when erecting formwork
Dismantling of form-work
Maintenance of Formwork
Worker exposure to direct sun whist working on formwork
(as applicable)
This document provides a monthly HSE performance summary for a construction project from February 1-28, 2022. It includes statistics on manhours worked, lost time injuries, safety observations and inspections conducted. The project had over 11 million manhours worked without lost time injuries during the reporting period. Various safety metrics such as training hours, meetings and inspections are presented. In summary, it analyzes the project's health, safety and environmental performance for the month.
A System to manage Contractor/Sub-Contractor from HSE perspective start from contractor selection until contract end to achieve health and safe working environment
Project Fire Risk Assessment Report
(Quarterly) By: App: Project Relevant legislation:
• Federal Law No. 8 – Chapter 5 Article 92 ;
• DM Code of Construction Practice – Chapter 5;
• Regulation NO. 5 2009 Railways in the Emirate of Dubai (RED);
• Railway Protection Code of Practice (RWPCOP);
• UAE Fire and Life Safety Code of Practice – Chapter 12 (FLSCOP);
• Abu Dhabi Occupational Safety and Health Center – Code of Practise (OSHAD – CoP)
Issued: Rev.
Area: Assessment Date:
Next Assessment date:
Report compiled by:
Designation:
ASSESSMENT CRITERIA FIRE AND EMERGENCY CONTROL MEASURES AND LEGAL REQUIREMENTS RELEVANT LEGISLATION IMPLEMENTED PROJECT CONTROLS FOR COMPLIANCE COMMENTS FROM LAST FIRE ASSESSMENT
1. Site set up of temporary offices and cabins
Incl. Fire risk assessment; • Fire risk assessment undertaken on site set up and maintained/amended as project progresses;
• A copy of the fire risk assessment is maintained by HSE personnel;
• Separation distances between buildings under construction and construction-related structures, such as temporary offices, trailers, sheds, and other facilities for the storage of tools and materials having combustible construction or contents;
• No offices to be erected within the 70m Metro Protection Zone; FLSCOP Chapter 12 Table 12.1
RWPCOP
Section 4.6.1
DM Chapter 5.4
OSHAD CoP 8.0 & 43.0 •
2. Use of Portable gas heating or cutting equipment.
(all areas) • Ensure equipment is used in accordance with MAS and adequately maintained;
• Ensure suitable extraction is in place in confined areas and equipment is suitably maintained, extractors regularly maintained/cleaned;
• Ensure suitable fire- fighting equipment available nearby;
• Ensure use of Hot Works and Permits to Work as per section 5 and OSHAD CoP 21.0 and CoP 28.0;
• Ensure flashback arrestors fitted, hoses and connections sound and leak proof (as per inspection regime);
• Gas cylinder storage detailed in Section 7 and OSHAD CoP 49.0; FLSCOP Chapter 12 Section 7
DM Chapters 5, 15
OSHAD CoP 21.0, 28.0 & 49.0 •
3. Electrical equipment (portable and fixed installation)
• Portable electrical equipment to be tested every 6 months. Test stickers on appliances for date of last testing;
• Ensure fixed/temporary installations are checked by a competent person monthly and that this check is recorded and registered;
• Ensure that socket/DB outlets are not overloaded and connections are correct to standards;
• Correct rated fuses and breakers to be installed;
• DB’s to be waterproof and mounted on metal frames if on site;
• All site supply cables to be armoured;
• Install overhead cable frames where practicable in congested areas;
• Damaged equipment and cords shall be removed from service and quarantined until repaired or destroyed;
• Temporary lights shall not be suspended by their electrical cords unless such cords and lights have been designed for that purpose; FLSCOP Chapter 12 Section 14
DM Chapters 5.6, 16 & 17
O
The document outlines 40 duties of a safety officer which include:
1) Monitoring hazardous situations and making recommendations to avoid risks.
2) Ensuring personnel safety, developing protective measures, and ensuring safe equipment operation.
3) Correcting unsafe acts, conducting investigations, and enforcing safety regulations.
The safety officer is responsible for a wide range of health and safety tasks including hazard identification, safety training, accident investigation, and ensuring compliance with regulations. Their overall goal is to maintain a safe work environment and protect all employees and visitors from injury.
This document provides an induction training summary for a construction project at the Dubai Design District Office Building. It includes:
1. Key personnel overseeing the project including the Project Manager, Technical Manager, and HSE Manager.
2. Health and safety policies and objectives to provide a safe working environment and achieve zero injuries or fatalities through compliance with regulations and building a strong safety culture.
3. Safety requirements and prohibited behaviors covering smoking, alcohol and drugs, horseplay, proper PPE use, traffic and pedestrian rules, and more. Failure to comply can result in removal from the site or legal penalties.
This document provides information on the safety pillar team at the United Breweries Limited facility in Nelamangala. It lists the 6 members of the safety pillar team and their roles. The mission of the safety pillar is to develop and implement effective safety policies to eliminate safety losses by identifying unsafe conditions and acts, preventing unsafe behaviors, and promoting near miss reporting. The document outlines the roles and responsibilities of the safety pillar members and provides the pillar's master plan to identify safety priorities, analyze accidents and incidents, identify hazards and risks, and conduct training.
16 Scaffolding (Temporary Works) Risk Assessment Templates
Access to work areas by personnel and plant.
Scaffold Material delivery to work area;
Scaffold design and erection standards
(Classified as Temporary Structure)
Scaffold erection
(Classified as Temporary Structure)
Dismantling of scaffold
Maintenance of Scaffold
Worker exposure to direct sun whist working on scaffold
(as applicable)
Safety handbook Saudi Aramco BY Muhammad Fahad Ansari 12IEEM14fahadansari131
The document provides guidance on confined space entry permitting procedures. It defines a confined space and outlines the permit process, which includes preparing the space by isolating it, conducting atmospheric testing, providing ventilation and rescue equipment, and restoring the space after entry. Personnel must obtain a Confined Space Entry Permit to enter any confined space to protect them from hazards therein. The permit ensures the space is properly prepared for safe entry and exit.
This document outlines the occupational health and safety induction and procedures for RedPixel Studios. It includes sections on the induction process, current safety procedures, equipment safety checks, safety representatives, existing and potential hazards, controlling risks, hazard reporting, meetings and inspections, emergency procedures, responsibilities, and resources for additional information. The goal is to introduce new employees to workplace safety policies and ensure all staff are aware of hazards and follow proper procedures to minimize risks.
Confined space – hazards –risk –control measuresAnand Prakash
Confined spaces pose hazards such as toxic, oxygen-deficient, and flammable atmospheres. A confined space is defined as having limited entry/exit points, unfavorable ventilation, and not being designed for continuous worker occupancy. To safely work in confined spaces, hazards must be identified and controlled through measures such as atmospheric testing, ventilation, isolation of energy sources, use of personal protective equipment, and implementing a permit-to-work system with assigned responsibilities and emergency arrangements. A risk assessment should evaluate all risks from potential hazards, and a safe system of work drawing on key elements like training, procedures, monitoring, and isolation should be established.
The document defines work at height as any work performed 1.8 meters or more above ground level, including below ground. Work above 1.8 meters requires a permit and safety checklist. Fall distances increase rapidly with time, emphasizing the need for fall protection like railings, safety harnesses attached to lifelines, and safety nets. Proper planning, equipment, and rescue procedures are required for working at heights.
The document discusses vibration exposure monitoring tools for workers using power tools. It provides vibration and noise level data for various common power tools from manufacturers like Makita, Bosch, Hilti. The HAVmeter and Havi devices attach to power tools and monitor and record a worker's vibration exposure over time to help ensure it does not exceed limits. The ToolMinder similarly monitors vibration exposure from tools used during a shift to calculate a worker's daily total exposure.
This document provides a health and safety guide for workers in European countries. It discusses regulations and limits regarding vibration, noise, and dust exposure. It also positions Hilti as a partner that can provide reliable information on health and safety risks as well as innovative safety solutions for construction projects. Hilti aims to help customers select the safest and most suitable methods for their work through an application selector and alternative product options.
The tutorial provides a complete assessment of occupational and environmental noise risk assessment, engineering controls, and discussion regarding the need for hearing conservation program for at-risk workers. Occupational and environmental noise can affect hearing as well as stress the cardiovascular system and psychosocial aspects of worklife. Learn how to evaluate noise exposures and determine the best control measure. When noise controls cannot reduce or eliminate the risk, hearing conservations programs should be constructed to protect workers.
The document outlines a workshop on hazard identification and control. It discusses identifying hazards, exposure, root causes of accidents, and controlling hazards. It covers inspection, observation, job hazard analysis, incident investigation, risk analysis, and continual improvement of safety management systems. The overall goals are to explore effective hazard identification and control programs and discuss the identification and control process.
This document provides safety guidelines and definitions for a variety of workplace hazards and situations. It begins with definitions of key safety terms like safety, accidents, hazards, and risks. It then covers safety policies, audits, tags, programs and attitudes. Specific hazards and precautions are outlined for welding, gas cutting, sandblasting, painting, electricity, construction, scaffolding, confined spaces, and ladder use. The duties of safety officers and supervisors are defined. Causes and prevention of accidents involving manual handling, mechanical handling, poor housekeeping, hand tools, power tools, and hard tools are discussed.
Barricading construction site and excavation asifmorio
Barricades are objects placed across roads or open spaces to stop people. There are two types - hard barricades, which must support 90kg of force and be 0.95-1.15m high, and soft barricades, which are only suitable as short-term warnings. Barricades are needed for excavation work, which involves removing soil or rock using tools or machinery, to form holes or cavities and occurs on construction sites, business premises, and public areas, posing hazards like collapsing soil, underground utility lines, falling in, and flooding.
The document outlines general safety requirements for a construction site. It covers topics like safety vision and objectives, site rules, personal protective equipment, welfare facilities, reporting incidents, emergency procedures, safety inspections, training, and motivation. It also discusses common workplace hazards like housekeeping, fire, working at heights, electricity, and manual handling and provides solutions to address them. The overall purpose is to establish safety policies and procedures to protect workers' health and safety at the construction site.
1) The document discusses hearing protection in the workplace and outlines OSHA regulations regarding noise levels and hearing conservation programs.
2) It states that exposure to noise levels over 85 decibels over an 8-hour period can risk hearing loss and requires a hearing conservation program.
3) The hearing conservation program includes measuring noise levels, requiring hearing tests for employees, and the use of hearing protection devices like earmuffs or earplugs to reduce noise exposure to safer levels.
Only qualified & competent personnel shall be permitted to work with electrical equipment only if they labelled with designated color coding for the respective month.
Competent personnel must be trained to recognize and avoid hazards with respect to equipment or work methods and must be familiar with applicable codes and standards.
All wiring shall have appropriate internal and external grounding.
Never bridge fuses and use appropriate rating of fuses for replacement.
De-energize all lines on which work will be performed, apply padlocks and lockout tags procedure, and this should be performed as per the Permit to Work System.
All temporary power supplies, used to provide power for electrical hand tools, must incorporate RCD’s (residual Current Devices) or ELCBs (Earth Leakage Circuit Breakers) that will trip at a leakage of 30 MA.
Trip test to be conducted weekly and recorded.
The use of 110v electrical equipment and hand tools on site is recommended, whenever possible.
All metal conductive parts within an arm reach from electrical power source shall be properly grounded to facilitate the operation of protection device in case of failure.
Live parts of electrical equipment operating at 50 volts or more must be guarded against accidental contact at all times.
Exposed non-current carrying metal parts of cord-and-plug-connected equipment that may become energized must be grounded.
A work permit document outlines the type of work, location, equipment, time required, hazards, and safety precautions for a task. There are various types of work permits including hot work, cold work, chemical/acid work, work at height, excavation, electrical, confined space, vehicular/earthmoving equipment, and radiology permits. Hot work permits cover tasks involving heat, fire or sparks like welding, cutting, drilling, grinding, and sandblasting. Each task outlines its hazards like burns, sparks, fumes, and required safety equipment like fire extinguishers, protective clothing, ventilation and more.
15 Formwork (Temporary Works) Risk Assessment Templates
Access to work areas by personnel and plant.
Material delivery to work area;
Formwork installation
(Classified as Temporary Structures)
Housekeeping when erecting formwork
Dismantling of form-work
Maintenance of Formwork
Worker exposure to direct sun whist working on formwork
(as applicable)
This document provides a monthly HSE performance summary for a construction project from February 1-28, 2022. It includes statistics on manhours worked, lost time injuries, safety observations and inspections conducted. The project had over 11 million manhours worked without lost time injuries during the reporting period. Various safety metrics such as training hours, meetings and inspections are presented. In summary, it analyzes the project's health, safety and environmental performance for the month.
A System to manage Contractor/Sub-Contractor from HSE perspective start from contractor selection until contract end to achieve health and safe working environment
Project Fire Risk Assessment Report
(Quarterly) By: App: Project Relevant legislation:
• Federal Law No. 8 – Chapter 5 Article 92 ;
• DM Code of Construction Practice – Chapter 5;
• Regulation NO. 5 2009 Railways in the Emirate of Dubai (RED);
• Railway Protection Code of Practice (RWPCOP);
• UAE Fire and Life Safety Code of Practice – Chapter 12 (FLSCOP);
• Abu Dhabi Occupational Safety and Health Center – Code of Practise (OSHAD – CoP)
Issued: Rev.
Area: Assessment Date:
Next Assessment date:
Report compiled by:
Designation:
ASSESSMENT CRITERIA FIRE AND EMERGENCY CONTROL MEASURES AND LEGAL REQUIREMENTS RELEVANT LEGISLATION IMPLEMENTED PROJECT CONTROLS FOR COMPLIANCE COMMENTS FROM LAST FIRE ASSESSMENT
1. Site set up of temporary offices and cabins
Incl. Fire risk assessment; • Fire risk assessment undertaken on site set up and maintained/amended as project progresses;
• A copy of the fire risk assessment is maintained by HSE personnel;
• Separation distances between buildings under construction and construction-related structures, such as temporary offices, trailers, sheds, and other facilities for the storage of tools and materials having combustible construction or contents;
• No offices to be erected within the 70m Metro Protection Zone; FLSCOP Chapter 12 Table 12.1
RWPCOP
Section 4.6.1
DM Chapter 5.4
OSHAD CoP 8.0 & 43.0 •
2. Use of Portable gas heating or cutting equipment.
(all areas) • Ensure equipment is used in accordance with MAS and adequately maintained;
• Ensure suitable extraction is in place in confined areas and equipment is suitably maintained, extractors regularly maintained/cleaned;
• Ensure suitable fire- fighting equipment available nearby;
• Ensure use of Hot Works and Permits to Work as per section 5 and OSHAD CoP 21.0 and CoP 28.0;
• Ensure flashback arrestors fitted, hoses and connections sound and leak proof (as per inspection regime);
• Gas cylinder storage detailed in Section 7 and OSHAD CoP 49.0; FLSCOP Chapter 12 Section 7
DM Chapters 5, 15
OSHAD CoP 21.0, 28.0 & 49.0 •
3. Electrical equipment (portable and fixed installation)
• Portable electrical equipment to be tested every 6 months. Test stickers on appliances for date of last testing;
• Ensure fixed/temporary installations are checked by a competent person monthly and that this check is recorded and registered;
• Ensure that socket/DB outlets are not overloaded and connections are correct to standards;
• Correct rated fuses and breakers to be installed;
• DB’s to be waterproof and mounted on metal frames if on site;
• All site supply cables to be armoured;
• Install overhead cable frames where practicable in congested areas;
• Damaged equipment and cords shall be removed from service and quarantined until repaired or destroyed;
• Temporary lights shall not be suspended by their electrical cords unless such cords and lights have been designed for that purpose; FLSCOP Chapter 12 Section 14
DM Chapters 5.6, 16 & 17
O
The document outlines 40 duties of a safety officer which include:
1) Monitoring hazardous situations and making recommendations to avoid risks.
2) Ensuring personnel safety, developing protective measures, and ensuring safe equipment operation.
3) Correcting unsafe acts, conducting investigations, and enforcing safety regulations.
The safety officer is responsible for a wide range of health and safety tasks including hazard identification, safety training, accident investigation, and ensuring compliance with regulations. Their overall goal is to maintain a safe work environment and protect all employees and visitors from injury.
This document provides an induction training summary for a construction project at the Dubai Design District Office Building. It includes:
1. Key personnel overseeing the project including the Project Manager, Technical Manager, and HSE Manager.
2. Health and safety policies and objectives to provide a safe working environment and achieve zero injuries or fatalities through compliance with regulations and building a strong safety culture.
3. Safety requirements and prohibited behaviors covering smoking, alcohol and drugs, horseplay, proper PPE use, traffic and pedestrian rules, and more. Failure to comply can result in removal from the site or legal penalties.
This document provides information on the safety pillar team at the United Breweries Limited facility in Nelamangala. It lists the 6 members of the safety pillar team and their roles. The mission of the safety pillar is to develop and implement effective safety policies to eliminate safety losses by identifying unsafe conditions and acts, preventing unsafe behaviors, and promoting near miss reporting. The document outlines the roles and responsibilities of the safety pillar members and provides the pillar's master plan to identify safety priorities, analyze accidents and incidents, identify hazards and risks, and conduct training.
16 Scaffolding (Temporary Works) Risk Assessment Templates
Access to work areas by personnel and plant.
Scaffold Material delivery to work area;
Scaffold design and erection standards
(Classified as Temporary Structure)
Scaffold erection
(Classified as Temporary Structure)
Dismantling of scaffold
Maintenance of Scaffold
Worker exposure to direct sun whist working on scaffold
(as applicable)
Safety handbook Saudi Aramco BY Muhammad Fahad Ansari 12IEEM14fahadansari131
The document provides guidance on confined space entry permitting procedures. It defines a confined space and outlines the permit process, which includes preparing the space by isolating it, conducting atmospheric testing, providing ventilation and rescue equipment, and restoring the space after entry. Personnel must obtain a Confined Space Entry Permit to enter any confined space to protect them from hazards therein. The permit ensures the space is properly prepared for safe entry and exit.
This document outlines the occupational health and safety induction and procedures for RedPixel Studios. It includes sections on the induction process, current safety procedures, equipment safety checks, safety representatives, existing and potential hazards, controlling risks, hazard reporting, meetings and inspections, emergency procedures, responsibilities, and resources for additional information. The goal is to introduce new employees to workplace safety policies and ensure all staff are aware of hazards and follow proper procedures to minimize risks.
Confined space – hazards –risk –control measuresAnand Prakash
Confined spaces pose hazards such as toxic, oxygen-deficient, and flammable atmospheres. A confined space is defined as having limited entry/exit points, unfavorable ventilation, and not being designed for continuous worker occupancy. To safely work in confined spaces, hazards must be identified and controlled through measures such as atmospheric testing, ventilation, isolation of energy sources, use of personal protective equipment, and implementing a permit-to-work system with assigned responsibilities and emergency arrangements. A risk assessment should evaluate all risks from potential hazards, and a safe system of work drawing on key elements like training, procedures, monitoring, and isolation should be established.
The document defines work at height as any work performed 1.8 meters or more above ground level, including below ground. Work above 1.8 meters requires a permit and safety checklist. Fall distances increase rapidly with time, emphasizing the need for fall protection like railings, safety harnesses attached to lifelines, and safety nets. Proper planning, equipment, and rescue procedures are required for working at heights.
The document discusses vibration exposure monitoring tools for workers using power tools. It provides vibration and noise level data for various common power tools from manufacturers like Makita, Bosch, Hilti. The HAVmeter and Havi devices attach to power tools and monitor and record a worker's vibration exposure over time to help ensure it does not exceed limits. The ToolMinder similarly monitors vibration exposure from tools used during a shift to calculate a worker's daily total exposure.
This document provides a health and safety guide for workers in European countries. It discusses regulations and limits regarding vibration, noise, and dust exposure. It also positions Hilti as a partner that can provide reliable information on health and safety risks as well as innovative safety solutions for construction projects. Hilti aims to help customers select the safest and most suitable methods for their work through an application selector and alternative product options.
This document provides specifications and load data for Hilti HST stud anchors. It includes:
- Descriptions of HST, HST-R, and HST-HCR anchors made of carbon steel, stainless steel, or high-corrosion resistant stainless steel.
- Tables with mean ultimate resistance, characteristic resistance, design resistance, and recommended load for various anchor sizes in tension and shear for non-cracked and cracked concrete.
- Details on installation equipment, setting operations, and mechanical properties of anchor bolts.
- An explanation of the detailed design method for tension and concrete capacity design method used to determine load values.
The MQ modular 3D installation system from Hilti offers a versatile and innovative solution for quick installation of pipes, ducts, cables, and support structures. The system features interconnecting single and double channels, fittings, brackets, and other components to create a wide variety of structural configurations with minimal tools. Installations can be adapted on site and assembled by one person rapidly due to the push-fit and twist-lock connections. The modular design improves efficiency by reducing planning and provides stability, strength, and an attractive appearance for visible installations. Hilti provides additional services including CAD drawings and technical support.
The document summarizes information about MEZ-BEAM CLAMPS, which are used to fasten pipes, ducts, and other suspensions to steel beams. The clamps are made of malleable cast iron, electrogalvanized for corrosion protection. They feature a hexagon bolt and locking nut that allow for quick height adjustment of the threaded rod inserted in the clearance hole. Various models are listed with their dimensions, load ratings, approvals, and packaging details. Beam clamps can be secured further using optional security plates to prevent lateral sliding as required by some guidelines.
This document provides information on MEZ-BEAM CLAMPS, including:
1) Details on different clamp models including their dimensions, materials, load capacities, and certifications.
2) Instructions for assembling and fastening the clamps, noting they provide a quick way to suspend pipes on steel beams using a threaded rod and locking nut.
3) Examples of applications where the clamps can be used, including situations where the clamp can be pre-assembled or adjusted in height after installation.
The document provides a date of Wednesday, September 1, 2010. It does not contain any other details about events, people, or topics discussed on that date. In just one sentence, the document simply states the date with no other contextual information provided.
The document discusses key information that should be included on floor plans, such as walls, windows, doors, dimensions, and notes. It provides examples of how to represent different architectural elements like stairs, fireplaces, and plumbing fixtures using symbols. Dimensioning guidelines are covered, including how to measure walls, openings, and overall room sizes. The purpose of other floor plan components like title blocks, section marks, and north arrows is also explained.
This document presents the design of a microwave communication system connecting Santa Ana, Bulacan to Angono, Rizal. It includes site descriptions and path profiles for 4 microwave links. Calculations are shown for link budgets, antenna sizes, losses, and gains. The links will operate at frequencies between 6.585 GHz to 6.824 GHz using parabolic antennas of 8-16 feet in diameter mounted on 50-200 foot towers.
The document reports on the results of testing various Category 6 cables. It provides the results of 22 cable tests, listing the cable ID, test summary (all passed), test limits, length of the cable, and margin above the limit for the worst case measurement in each test. The cables that were tested ranged in length from 9 feet to 194 feet. All cables passed the tests for NEXT, ACR-F, ACR-N, and RL.
iCAT C600 Permanent Link Test with iCAT Cat6 JackJulie Fletcher
This document summarizes the results of a cable test. The cable passed all tests, including wire map, insertion loss, delay, and crosstalk measurements. Test limits were met for categories 5e and 6. The cable is 149 feet long and supports standards including 10BASE-T, 100BASE-TX, 1000BASE-T, and ATM.
The document describes four dual-element Si PIN photodiodes (S2721-02, S3096-02, S4204, S8703) that feature high sensitivity, low noise, and low cross-talk between elements. They are suitable for applications like CD/DVD/MO signal pickups, laser beam alignment, and position detection due to their uniform element sensitivity and low noise. Dimensional outlines and specifications for each model are provided.
This document provides specifications for Times Microwave Systems' LMR-400 flexible low loss communications coaxial cable. It is suitable for drop-in replacement of other common coax cables and for short antenna feeder runs. The document includes detailed electrical, mechanical, environmental and construction specifications. It also provides attenuation performance charts and specifications for 31 different connector options.
This document is a service manual for various Victor CD receiver models. It contains specifications for the audio amplifier, tuner, CD player, USB, and general sections of the receivers. The specifications include power output, frequency response, signal-to-noise ratio, input/output levels and impedances, and more. It also includes a table of contents listing the sections and pages of the manual.
This document provides specifications for several floor standing air conditioner models: FXLQ20MAVE, FXLQ25MAVE, FXLQ32MAVE, FXLQ40MAVE, FXLQ50MAVE, and FXLQ63MAVE. It lists technical details such as cooling capacity, dimensions, fan motor output, sound levels, and standard accessories for each model. The specifications cover areas like casing color and material, piping connections, refrigerant control, and connectable outdoor units. Notes provide additional information on measurement conditions and conversion formulae.
Design of Radio Frequency Integrated Circuits for UWB CommunicationsRFIC-IUMA
This thesis document describes the design of radio frequency integrated circuits for ultra wide band communications. The document outlines the objectives of exploring different low noise amplifier architectures that are power and area efficient for ultra wide band applications. It proposes exploring distributed amplifiers, wideband low noise amplifiers, feedback wideband amplifiers, and inductorless techniques. The document provides an outline that will analyze these techniques and present the proposed milestones and experimental results.
The document contains plots of various responses for a first order RC network system:
1) A Nyquist plot showing the system's frequency response;
2) A root locus plot showing how the system poles vary with changing gain;
3) Bode plots of the magnitude and phase response over frequency;
4) Step, impulse and ramp input responses of the first order RC network system.
1) The document describes TacLED-3D, a new material for 3D structuring LED light that is bendable and formable.
2) TacLED-3D has excellent heat dissipation and dielectric properties that allow it to adhere strongly to metal substrates while maintaining high thermal resistance during bending.
3) Testing shows that TacLED-3D maintains high dielectric breakdown voltage even when bent into complex 3D shapes, and it does not develop microcracks like conventional materials. TacLED-3D is presented as a superior solution for 3D LED applications.
This research was a part of my Dual Degree Thesis and presented at The Minerals Metals and Materials Society Annual Meeting and Conference held at Seattle, WA in 2010.
The acoustic properties of a room design should ensure that it is easy to both speak and listen with a high degree of intelligibility. Reverberation Time is the single most important parameter used to evaluate room acoustics.
SMD gearbox offers an industrial solution for motion transmission. as a trailblazer in the manufacturing of various types of industrial gearbox in Taiwan. SMD is one of the largest manufacturers and exporters of high precision gearbox solutions. SMD developed professional manufacturing capabilities offering various types of solutions such as inline planetary gearbox with flange-end, right angle gearbox, planetary gearbox with shaft-end, hollow rotary gearbox, and harmonic gearbox.
Visit us:- www.smdgearbox.com
This document provides an overview of logging tools used to measure properties of rock formations during drilling. It describes the measurements made by wireline tools, logging-while-drilling tools, and measurement-while-drilling tools. Acronyms and units used in logging are also defined. The document aims to help readers understand logging terminology and measurements.
This document summarizes a workshop on software defined radio held by the Bangalore Amateur Radio Club on July 9th, 2017. It provides information on different software defined radio hardware options such as HackRF One, Ettus B200, BladeRF, and RTL-SDR. It discusses SDR software for Windows, MAC, Linux and Android devices. It also gives examples of using SDRs for applications like receiving AM/FM radio, decoding digital signals, receiving GPS and weather satellite data, and acting as a spectrum analyzer. Diagrams provide explanations of direct down conversion receivers and examples of decoding ADS-B signals from aircraft and building AM/FM receivers with an SDR and VFO.
The document contains the results of 6 cable certification tests. It summarizes the cable ID, test limit standard, length of the cable, and margin of passing for key performance indicators like NEXT and ACR-F. All 6 cables passed certification for standards including ISO 11801 Class E, TIA Cat6, and TIA Cat5e. Test details are provided on pages 3-5 including worst case margins, frequencies, and limits for each cable.
Sprinklers and micro sprinklers master technical dataCarlos Rovello
The document provides specifications for various sprinkler models from the SuperNet and GyroNet product lines including flow rate, nozzle size, working pressure range, wetted diameter, and color coding. It includes tables comparing the technical details and performance characteristics of different sprinkler heads across multiple product categories.
This document contains technical specifications for multiple radio links, including location data, antenna characteristics, radio models, transmission parameters, and reliability calculations. For each link, it provides the elevation, latitude, longitude, azimuth, antenna height and gain, transmission frequency, power levels, fade margins, and reliability statistics for multipath and rain effects.
1. Tool selector 03/2012
Tool selector.
Choose the right Hilti tool.
Rotary hammers, combihammers and breakers
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Number of holes to EAV 2.5 m/s2 (ELV 5 m/s2) for drilling diameter [mm]…
Category
removal sound vibration tainty K to EAV to ELV Hole depth 50 mm Hole depth 100 mm
system pressure value* 4 5 6 8 10 12 14 16 18 20 22 24 25 26 28 30 32 34 36 38 40
level*
TE2-A DRS-S 86 dB(A) 14.5 m/s2 1.5 m/s² 14 min. 57 min. 129 119 47 36
Cordless rotary hammers
(516) (476) (188) (144)
TE2-A22 DRS-S 92 dB(A) 15.0 m/s² 1.5 m/s² 13 min. 52 min. 47
(188)
TE4-A22 no 88 dB(A) 11 m/s2 1.5 m/s² 25 min. 100 min. 198 230 118 125 88 67
(792) (920) (472) (500) (352) (268)
TE6-A DRS-S 90 dB(A) 11 m/s2 1.5 m/s² 25 min. 99 min. 251 219 94 75 61 45
(1004) (876) (376) (300) (244) (180)
TE6- DRS- 88 dB(A) 9 m/s2 1.5 m/s² 37 min. 148 min. 318 366 162 185 139 90
A36-AVR TE6-A (1272) (1464) (648) (740) (556) (360)
TE7-A DRS-M 88 dB(A) 11 m/s2 1.5 m/s² 25 min. 99 min. 228 237 126 112 85 69 35
(912) (948) (504) (448) (340) (276) (140)
TE1 (02) DRS-S 89 dB(A) 15 m/s2 1.5 m/s² 13 min. 52 min. 133 56 41
Rotary hammers
(532) (224) (164)
TE2 DRS-S 89 dB(A) 16 m/s2 1.5 m/s² 12 min. 47 min. 116 49 39
(all types) (464) (196) (156)
TE2 (02) DRS-S 91 dB(A) 13.5 m/s2 1.5 m/s² 16 min. 66 min. 171 163 73 61
(all types) (684) (652) (292) (244)
TE6-S DRS-M 87 dB(A) 11 m/s2 1.5 m/s² 25 min. 99 min. 247 111 79 73 56
(988) (444) (316) (292) (224)
TE 7 (02) DRS-M 89 dB(A) 11.0 m/s² 1.5 m/s² 25 min. 100 min. 84
(336)
TE7-C DRS-M 89 dB(A) 17 m/s2 1.5 m/s² 10 min. 42 min. 103 107 52 45 34 28 18 14
(412) (428) (208) (180) (136) (112) (72) (56)
TE16 DRS-S 89 dB(A) 16.5 m/s2 1.5 m/s² 11 min. 44 min. 123 63 60 40 19
(all types) (492) (252) (240) (160) (76)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
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2. Tool selector 03/2012
Rotary hammers, combihammers and breakers
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Number of holes to EAV 2.5 m/s2 (ELV 5 m/s2) for drilling diameter [mm]…
Category
removal sound vibration tainty K to EAV to ELV Hole depth 50 mm Hole depth 100 mm
system pressure value* 4 5 6 8 10 12 14 16 18 20 22 24 25 26 28 30 32 34 36 38 40
level*
TE30 DRS-S 90 dB(A) 16.5 m/s2 1.5 m/s² 11 min. 44 min. 60 81 41 19
Combihammers
(240) (244) (164) (76)
TE30-C- DRS-S 90 dB(A) 12 m/s2 1.5 m/s² 21 min. 84 min. 114 116 78 36
AVR (456) (464) (312) (144)
TE30-M- DRS-S 90 dB(A) 12 m/s2 1.5 m/s² 21 min. 84 min. 114 116 78 36
AVR (456) (464) (312) (144)
TE40 DRS-S 93 dB(A) 16.3 m/s2 1.5 m/s² 11 min. 45 min. 52 29 20
(208) (116) (80)
TE40- DRS-S 94 dB(A) 10.7 m/s2 1.5 m/s² 26 min. 105 min. 121 67 46
AVR (484) (268) (184)
TE50 DRS-S 95 dB(A) 16.1 m/s2 1.5 m/s² 12 min. 46 min. 50 29 22 20 12
(200) (116) (88) (80) (48)
TE50- DRS-S 93 dB(A) 11.4 m/s2 1.5 m/s² 23 min. 92 min. 99 57 44 40 24
AVR (396) (228) (176) (160) (96)
TE56 DRS-S 92 dB(A) 17 m/s2 1.5 m/s² 10 min. 42 min. 47 29 22 17 13
(188) (116) (88) (68) (52)
TE56- DRS-S 92 dB(A) 16 m/s2 1.5 m/s² 12 min. 47 min. 33 25 20 14
ATC (132) (100) (80) (56)
TE60 DRS-S 101 7.5 m/s2 1.5 m/s² 53 min. 212 185 150 94
ATC dB(A) min. (740) (600) (376)
AVR(3)
TE60-T- DRS-S 99 dB(A) 9 m/s2 1.5 m/s² 37 min. 148 min. 113 82 56
ATC (452) (328) (224)
TE60 DRS-S 96 dB(A) 18.5 m/s2 1.5 m/s² 9 min. 35 min. 25 18 12
(100) (72) (48)
TE70 DRS-B 99 dB(A) 22 m/s2 1.5 m/s² 6 min. 25 min. 25 21 18 15 10 7
(100) (84) (72) (60) (40) (28)
TE70- DRS-B 99.5 B(A) 22 m/s2 1.5 m/s² 6 min. 25 min. 25 21 18 15 10 7
ATC (100) (84) (72) (60) (40) (28)
TE76 DRS-B 91 dB(A) 17 m/s2 1.5 m/s² 10 min. 42 min. 29 21 17 13
(116) (84) (68) (52)
TE 76P- DRS-B 91 dB(A) 15 m/s2 1.5 m/s² 13 min. 53 min. 37 26 22 16
ATC (148) (104) (88) (64)
TE80 DRS-B 99.5 B(A) 8.8 m/s2 1.5 m/s² 39 min. 155 min. 171 144 131 109 93 70 53
(684) (576) (524) (436) (372) (280) (212)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
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3. Tool selector 03/2012
Basic tool data Productivity data
Category Tool Emission Triaxial
Dust Uncer- Time Time Application Volume till EAV Volume till ELV
sound
removal vibration tainty K to EAV to ELV
pressure value*
system
level*
Breakers TE 106 DRS-B 90 dB(A) 14 m/s2 1.5 m/s² 15 min. 61 min. chiseling to the wall 4.1 l 16 l
TE 300-AVR DRS-B 91 dB(A) 13.5 m/s2 1.5 m/s² 16 min. 64 min. chiseling to the wall 5.0 l 20 l
TE 500 DRS-B 94 dB(A) 12.1 m/s2 1.5 m/s² 20 min. 82 min. chiseling to the wall 22.1 l 88 l
TE 500-AVR DRS-B 94 dB(A) 10.1 m/s2 1.5 m/s² 29 min. 118 min. chiseling to the wall 31.8 l 127 l
TE 700-AVR DRS-B 86.0 dB(A) 6.5 m/s² 1.5 m/s² 71 min. 284 min. chiselling to the wall 60.0 l 240 l
TE 706 DRS-B 90 dB(A) 9 m/s2 1.5 m/s² 37 min. 148 min. chiseling to the wall 41.5 l 165 l
TE 706-AVR DRS-B 87 dB(A) 5.5 m/s2 1.5 m/s² 99 min. 397 min. chiseling to the wall 111.1 l 444 l
TE 805 DRS-B 90 dB(A) 15 m/s2 1.5 m/s² 13 min. 53 min. demolition on floor edge 44.4 l 177 l
TE 905-AVR DRS-B 92 dB(A) 8.5 m/s2 1.5 m/s² 42 min. 166 min. demolition on floor edge 139.8 l 559 l
TE 1000-AVR DRS-B 87 dB(A) 6.5 m/s2 1.5 m/s² 71 min. 284 min. demolition on floor edge 325.0 l 1300 l
TE 1500-AVR DRS-B 89 dB(A) 12 m/s2 1.5 m/s² 21 min. 84 min. demolition on floor edge 145.0 l 580 l
TE 3000-AVR no 94 dB(A) 7.0 m/s² 1.5 m/s² 61 min. 244 min. demolition of floor edge 2075 l 8300 l
Combi- TE 30-C-AVR no 90 dB(A) 11 m/s2 1.5 m/s² 25 min. 100 min. chiseling to the wall 7.0 l 28 l
hammer TE 30-M-AVR no 90 dB(A) 11 m/s2 1.5 m/s² 25 min. 100 min. chiseling to the wall 7.0 l 28 l
TE 56 DRS-B 92 dB(A) 13 m/s2 1.5 m/s² 18 min. 71 min. chiseling to the wall 14.9 l 59 l
TE 60-ATC AVR (3) DRS-BK 101 dB(A) 7 m/s2 1.5 m/s² 61 min. 244 min. chiseling to the wall 56.3 l 225 l
TE 60-T-ATC DRS-B 99 dB(A) 8.5 m/s2 1.5 m/s² 42 min. 166 min. chiseling to the wall 34.0 l 136 l
TE 60 DRS-B 96 dB(A) 14 m/s2 1.5 m/s² 15 min. 61 min. chiseling to the wall 12.9 l 51 l
TE 70 DRS-B 99 dB(A) 18 m/s2 1.5 m/s² 9 min. 37 min. chiseling to the wall 11.9 l 47 l
TE 76 DRS-B 91 dB(A) 15 m/s2 1.5 m/s² 13 min. 53 min. chiseling to the wall 14.7 l 58 l
TE 80 DRS-B 99.5 dB(A) 8.5 m/s2 1.5 m/s² 42 min. 166 min. chiseling to the wall 56.5 l 225 l
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Examples for volume of liter (chiseling to the wall)
Volume in liter Depth in cm Length in cm breadth in cm
1 10 x 5 x 20
2 20 x 10 x 10
5 20 x 5 x 50
10 10 x 5 x 200
20 20 x 10 x 100
50 20 x 20 x 125
100 10 x 50 x 200
500 20 x 50 x 500
How to read the selector. exposure limit value (ELV). The next part of the se- depth is 100 mm. This makes it easier to compare
In this example we compare the TE2-A and TE7-A lector shows the number of holes that can be drilled the different tools.
cordless rotary hammers. with that tool before reaching the exposure action
A dust removal solution (DRS-M) is available for the value or the exposure limit value (in brackets), de- Example: With a TE2-A, you can drill 120 holes
TE7-A. The sound pressure level of these tools pending on the diameter of the hole. The section 8 mm in diameter and to a depth of 50mm before
is shown in the next column. The next two columns marked in grey is the recommended diameter range reaching the exposure action value, while with
show the triaxial vibration value required for a risk for the different tools. Please note that the number a TE7-A you can drill 237 holes of the same size
analysis and the time the tool can be operated befo- of 4–8 mm dia. holes given applies to a depth of before reaching the EAV.
re reaching the exposure action value (EAV) and the 50 mm, while for diameters bigger than 8 mm hole
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4. Tool selector 03/2012
Compact drill drivers
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Work
removal sound vibration tainty K to to piece Number of holes to EAV 2.5 m/s2
system pressure value* EAV ELV
level* LpA* 3 4 5 6 8 9 10 11 12
Drill SF no 75 dB(A) 2.5 m/s² 1.5 m/s² 480 1920 10 mm 2300 1700 1300 1100 340 300 270 240 220
drivers 14-A min. min. mild (9200) (6800) (5200) (4400) (1360) (1200) (1080) (960) (880)
steel
one one one one pre dril- pre dril- pre dril- pre dril- pre dril-
step step step step ling (6 ling (6 ling (6 ling (6 ling (6
drilling drilling drilling drilling mm pre mm pre mm pre mm pre mm pre
hole) hole) hole) hole) hole)
SF no 75 dB(A) 2.5 m/s² 1.5 m/s² 480 1920 10 mm 1530 1150 920 760 450 400 360 330 300
22-A min. min. mild (6120) (4600) (3680) (3040) (1800) (1600) (1440) (1320) (1200)
steel
one one one one pre dril- pre dril- pre dril- pre dril- pre dril-
step step step step ling (6 ling (6 ling (6 ling (6 ling (6
drilling drilling drilling drilling mm pre mm pre mm pre mm pre mm pre
hole) hole) hole) hole) hole)
Compact SFC no 69 dB(A) 2.0 m/s² 1.5 m/s² 750 3000 10 mm 2500 1900 1500 1300
drill 14-A min. min. mild (10000) (7600) (6000) (5200)
drivers steel
SFC no 69 dB(A) 2.0 m/s² 1.5 m/s² 750 3000 10 mm 4400 3300 2600 2200
22-A min. min. mild (17600) (13200) (10400) (8800)
steel
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
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5. Tool selector 03/2012
Impact drilling
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Work
removal sound vibration tainty K to to piece Number of holes to EAV 2.5 m/s2
system pressure value* EAV ELV
level* LpA* 3 4 5 6 8 9 10 11 12
Cordless SFH no 96 dB(A) 20 m/s2 1.5 m/s² 8 32 10 mm 1600 1200 1000 800 430 380 340 310 290
drills/ 22-A min. min. mild (6400) (4800) (4000) (3200) (1720) (1520) (1360) (1240) (1160)
drivers steel
one one one one pre dril- pre dril- pre dril- pre dril- pre dril-
step step step step ling ling ling ling ling
drilling drilling drilling drilling (6 mm (6 mm (6 mm (6 mm (6 mm
pre hole) pre hole) pre hole) pre hole) pre hole)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Impact drilling
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Work Number of holes to EAV 2.5 m/s2
removal sound vibration tainty K to EAV to ELV piece
Hole depth: 50 mm 80 mm 90 mm
system pressure value*
level* LpA* 3 4 5 6 8 9 10 11 12
Cordless SFH no 96 dB(A) 20 m/s2 1.5 m/s² 8 min. 32 min. screed 300 150 95
drills/ 22-A concrete (1200) (600) (380)
drivers limestone/ 360 140 80
masonry (1440) (560) (320)
SFH no 91 dB(A) 12 m/s2 1.5 m/s² 21 min. 84 min. screed 330 140 110
144-A concrete (1320) (560) (440)
limestone/ 270 110 55
masonry (1080) (440) (220)
SFH no 93 dB(A) 11.8 m/s2 1.5 m/s² 22 min. 88 min. screed 250 140 70
151-A concrete (1000) (560) (280)
limestone/ 330 135 70
masonry (1320) (540) (280)
SFH no 91 dB(A) 13.1 m/s2 1.5 m/s² 17 min. 68 min. screed 260 140 90
181-A concrete (1040) (560) (360)
limestone/ 500 180 90
masonry (2000) (720) (360)
Universal UH no 93 dB(A) 13.9 m/s2 1.5 m/s² 16 min. 64 min. screed 210 150 120
hammers 240-A concrete (840) (600) (480)
limestone/ 370 170 85
masonry (1480) (680) (340)
UH no 96 dB(A) 14 m/s2 1.5 m/s² 15 min. 60 min. screed 260 140 70
650 concrete (1040) (560) (280)
limestone/ 280 115 45
masonry (1120) (460) (180)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
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6. Tool selector 03/2012
Impact fastening
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Work piece Screw type Number of screw
removal sound vibration tainty K to EAV to ELV settings to EAV
system pressure value* 2.5 m/s2 (ELV 5 m/s2)
level* LpA*
Impact SI 100 no 95 dB(A) 8.4 m/s² 1.5 m/s² 43 min. 172 min. concrete HUS H 12.5 (10 mm) 635 (2540)
drivers/ SID/SIW no 83 dB(A) 7.5 m/s² 1.5 m/s² 53 min. 212 min. steel M12 metal screw 1600 (6400)
wrenches 14-A 83 dB(A) 7.5 m/s² 1.5 m/s² 53 min. 212 min. concrete HUS H 6 screw (6 mm) 800 (3200)
SID/SIW no 86 dB(A) 11.0 m/s² 1.5 m/s² 25 min. 100 min. steel M12 metal screw 740 (2960)
22-A 86 dB(A) 11.0 m/s² 1.5 m/s² 25 min. 100 min. concrete HUS H 7,5 screw (6 mm) 370 (1480)
SID/SIW no 85 dB(A) 7.4 m/s2 1.5 m/s² 55 min. 220 min. steel M12 metal 1600 (6400)
121-A 625 (2500)
SID/SIW no 93 dB(A) 12 m/s2 1.5 m/s² 21 min. 84 min.steel M12 metal 300 (1200)
144-A steel HUS H 7.5 (6 mm) 420 (1600)
SIW 22T-A no 97 dB(A) 14.5 m/s 2
1.5 m/s² 14 min. 56 min. steel M20 metal 170 (680)
concrete HUS H 10.5 (8 mm) 110 (440)
concrete HUS H 12.5 (10 mm) 70 (280)
concrete HUS H 16.5 (14 mm) 22 (88)
wood 12 X wood (240 mm)
Screw TKI 2500 no 97 dB(A) 12.3 m/s2 1.5 m/s² 20 min. 80 min. screed concrete M10 metal 120 (480)
drivers 12.3 m/s2 1.5 m/s² 20 min. 80 min. limestone/masonry HUS H 7.5 (6 mm) 85 (340)
ST 1800-A22 no 70 dB(A) 0.5 m/s² 1.5 m/s² 12000 min. 48000 min. steel S-MD 01Z 4,8x19 3000 (1200)
steel S-MD 51Z 4,8x19 5200 (20800)
steel S-MD 03Z 5,5x25 1500 (6000)
steel S-MD 53Z 5,5x25 2700 (10800)
steel S-MD 05Z 5,5x40 540 (2160)
steel S-MD 55Z 5,5x45 800 (3200)
Diamond coring tools
Hand-held diamond core drilling with water in non reinterced concrete
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Core bit Number of holes till EAV 2.5 m/s2 (ELV 5 m/s2)
removal sound vibration tainty K to EAV to ELV length for coring diameter [mm]
system pressure value* or type Hole depth 100 mm
level* LpA* 8 12 16 18 20 24 28 35 52 66
DD EC 1 wet 87 dB(A) 10 m/s² 1.5 m/s² 30 min. 120 min. 150 mm 120 110 100
(480) (440) (400)
17 m/s² 2.0 m/s² 10 min. 40 min. 300 mm 47 28
(188) (112)
DD 130 wet 89 dB(A) 5 m/s² 1.5 m/s² 120 min. 480 min. HWC 90 40
(360) (160)
DD 110-W wet 84 dB(A) 4.6 m/s² 1.5 m/s² 142 min. 568 min. HWC 200 80
(800) (320)
DD 150 U wet 87 dB(A) 7 m/s² 1.5 m/s² 61 min. 244 min. HWC 66/ 30
350HWC (120)
min./max. Diameter range (recommendation)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
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7. Tool selector 03/2012
Diamond coring tools
Hand-held dry diamond socket cutting into sand-limestone
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Core bit Number of holes till EAV 2.5 m/s2 (ELV 5 m/s2)
removal Sound vibration tainty K to EAV to ELV type for coring diameter [mm]
system pressure value* Hole depth 60 mm
level LpA* 68 82
DD 110-D dry, vacuum 84 dB(A) 5.8 m/s² 1.5 m/s² 89 min. 356 min. SC HDMU 320
(1280)
12 m/s² 1.5 m/s² 21 min. 84 min. SC PCM 130
(520)
DD 130 dry, vacuum 89 dB(A) 6 m/s² 1.5 m/s² 83 min. 332 min. SC HDMU 280
(1120)
11 m/s² 2.5 m/s² 25 min. 100 min. SC PCM 190
(760)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Hand-held dry diamond core drilling into sand-limestone
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Core bit Number of holes till EAV 2.5 m/s2 (ELV 5 m/s2)
removal Sound vibration tainty K to EAV to ELV length for coring diameter [mm]
system pressure value* or type Hole depth 100 mm
level LpA* 16 18 20 24 28 35 52 67 68 87 102 112 122 132 152 162
DD 110-D dry, 84 dB(A) 5.8 m/s² 1.5 m/s² 89 min. 356 min. SC HDMU 230 200 90 20
vacuum (920) (800) (360) (80)
DD 130 dry 89 dB(A) 6 m/s² 1.5 m/s² 83 min. 332 min. SC HDMU 370 170 100 30
vacuum (1480) (680) (400) (120)
DD 150 U dry, 87 dB(A) 6.5 m/s² 1.6 m/s² 71 min. 284 min. DD-B 150
vacuum HDMU (600)
14.5 m/s² 4.5 m/s² 14 min. 56 min. DD-B PCM 110
(440)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Rig based diamond core drilling with water in non reinforced concrete (I)
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Core bit Number of holes till EAV 2.5 m/s2 (ELV 5 m/s2)
removal Sound vibration tainty K to EAV to ELV length for coring diameter [mm]
system pressure value* or type Hole depth 100 mm
level LpA* 8 12 16 18 20 24 28 35
DD EC1- wet 84 dB(A) 7 m/s² 1.5 m/s² 61 min. 244 min. ≤ 150 mm 110
Rig (440)
11 m/s² 1.5 m/s² 25 min. 100 min. SC HDMU 65
(260)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Rig based diamond core drilling with water in non reinforced concrete (I)
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Core bit Number of holes till EAV 2.5 m/s2 (ELV 5 m/s2)
removal Sound vibration tainty K to EAV to ELV length for coring diameter [mm]
system pressure value* or type Hole depth 100 mm
level LpA* 35 52 67 68 82 87 102 112 122 132 152 162 202
DD 120- wet 89 dB(A) 2.5 m/s² n.a 480 min. 1920 min. DD BI…P2 170 130 60 40
Rig (680) (520) (240) (160)
DD 130- wet 89 dB(A) 3.5 m/s² n.a 245 min. 980 min. DD BI…P2 290 80 70 30
Rig (1160) (320) (280) (120)
DD 150- wet 93 dB(A) 3.5 m/s² 1.5 m/s² 245 min. 980 min. DD-Bl P130 95**
U Rig (380)
DD 160 wet 93 dB(A) 4 m/s² 1.5 m/s² 188 min. 752 min. DD-Bl P2 90**
(360)
DD 200- wet 92 dB(A) 2.5 m/s² n.a 480 min. 1920 min. DD BL…H2 390 90**
Rig (1560) (360)
DD 350- wet 95 dB(A) 2.5 m/s² n.a 480 min. 1920 min. DD BL…H2 1100 290**
Rig (4400) (1160)
DD 500- wet 89 dB(A) 2.5 m/s² n.a 480 min. 1920 min. DD BL… 700 300**
Rig HX2 (2800) (1200)
min./max. Diameter range (recommendation)
* Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
** Hole depth 200 mm
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8. Tool selector 03/2012
Diamond cutting tools
Cutting
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Cutting wheel Application Exposure Exposure
removal sound vibration tainty K to EAV to ELV Action Limit
system pressure value ahv* Value Value
level*
Diamond DCH Integrated 102.5 dB(A) 4.7 m/s2 1.5 m/s² 136 min. 544 min. DC-D230-C1 cutting off 50 mm 70 m 280 m
cutters 230 (01) concrete slabs
DC-D230-C1 cutting grooves 45 mm deep 58 m 232 m
in 40 N/mm 2 concrete
DC-D230-M1/ C1 cutting grooves 50 mm deep 109 m 436 m
in limestone
DCH Integrated 106 dB(A) 5.1 m/s2 1.5 m/s² 115 min. 460 min. DCH-D305-C1 cutting off 50 mm 60.5 m 244 m
300 (01) concrete slabs
DCH-D305-C1 cutting grooves 45 mm deep 48 m 192 m
in 40 N/mm 2 concrete
DCH-D305-M1/ cutting grooves 45 mm deep 32 m 128 m
C1 in limestone
DCH-D305-M1/ cutting grooves 90 mm deep 26 m 104 m
C1 in limestone
*Emission sound pressure level LpA and triaxial vibration value ahv according to EN 60745-2-x (Uncertainty (k): noise 3 dB(A), vibration 1,5 ….2,7 m/s² , depending on tool and application).
Cutting
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Cutting wheel Application Exposure Exposure
removal sound vibration tainty K to EAV to ELV Action Limit
system pressure value ahv* Value Value
level*
Diamond DCH Integrated 103.5 dB(A) 5.6 m/s2 1.7 m/s² 96 min. 384 min. DCH-D185-SE C1 wall chasing 45 mm deep 32 m 128 m
cutters 180 SL in 40 N/mm 2 concrete
DCH-D185-SE M1/ C1 wall chasing 45 mm deep 78.5 m 314 m
in sand-limestone
DC-SE Integrated 104 dB(A) 4.5 m/s2 n.a 148 min. 592 min. DC-D125-SE C1 wall chasing 30 mm deep 25.5 m 101 m
20 in 40 N/mm 2 concrete
DC-D125-SE M1/ C1 wall chasing 30 mm deep 86 m 344 m
in sand-limestone
*Emission sound pressure level LpA and triaxial vibration value ahv according to EN 60745-2-x (Uncertainty (k): noise 3 dB(A), vibration 1,5 ….2,7 m/s² , depending on tool and application).
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9. Tool selector 03/2012
Diamond cutting tools
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Cutting wheel Application Exposure Exposure
removal sound vibration tainty K to EAV to ELV Action Limit Action Limit
system pressure value ahv* Value Value Value Value
level LpA*
Grinding AG 125-S DC-EX 88 dB(A) 5,2 m/s² n.a 111 min. 444 min. AG-D 125 USP 6,4 grinding 5⨯5 mm chamfer 21 m 84 m
steel (12.5 mm² on mild steel)
DAG 125-S DC-EX 87 dB(A) 4.6 m/s² n.a 142 min. 568 min. AG-D 125 USP 6,4 grinding 5⨯5 mm chamfer 28 m 112 m
(12.5 mm² on mild steel)
DEG 125-D DC-EX 89 dB(A) 7 m/s² n.a 61 min. 244 min. AG-D 125 USP 6,4 grinding 5⨯5 mm chamfer 46 m 184 m
(12.5 mm² on mild steel)
DCG 125-S DC-EX 90 dB(A) 5,7 m/s² n.a 92 min. 368 min. AG-D 125 USP 6,4 grinding 5⨯5 mm chamfer 50 m 200 m
(12.5 mm² on mild steel)
DC 230-S DC-EX 92 dB(A) 5,8 m/s² n.a 89 min. 356 min. AG-D 125 USP 6,4 grinding 5⨯5 mm chamfer 11 m 44 m
(12.5 mm² on mild steel)
DAG 230-D DC-EX 90 dB(A) 5 m/s² n.a 120 min. 480 min. AG-D 125 USP 6,4 grinding 5⨯5 mm chamfer 61 m 244 m
(12.5 mm² on mild steel)
Cutting DAG 230-D DC-EX 90 dB(A) 5 m/s² n.a 120 min. 480 min. DC-D 230-C1 cutting off 50 mm 61 m 244 m
concrete slabs
DC-D 230-C1 cutting grooves 30 mm deep 54 m 216 m
in 40 N/mm 2 concrete
DC-D 230-C1 cutting grooves 45 mm deep 71 m 284 m
in limestone
DCG 230-D DC-EX 90 dB(A) 5 m/s² n.a 120 min. 480 min. DC-D 230-C1 cutting off 50 mm 79 m 316 m
concrete slabs
DC-D 230-C1 cutting grooves 30 mm deep 60 m 240 m
in 40 N/mm 2 concrete
DC-D 230-C1 cutting grooves 45 mm deep 117 m 468 m
in limestone
DCG 230-DB DC-EX 90 dB(A) 5 m/s² n.a 120 min. 480 min. DC-D 230-C1 cutting off 50 mm 70 m 280 m
concrete slabs
DC-D 230-C1 cutting grooves 30 mm deep 80 m 320 m
in 40 N/mm 2 concrete
DC-D 230-C1 cutting grooves 45 mm deep 108 m 432 m
in limestone
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
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10. Tool selector 03/2012
Steel cutting tools
Cutting rebar
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Cutting
removal Sound vibration tainty K to EAV to ELV wheel Number of cuts for diameter [mm]
system pressure value*
level LpA* 10 12 15 20 25 30 40
DC 230 S DC-EX 92 dB(A) 5.8 m/s² n.a 89 min. 356 min. AC-D 230 2770 1860 115 610 380 250 130
2.5 mm USP (11080) (7440) (4200) (2440) (1520) (1000) (520)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Cutting channel installation system
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Cutting
removal Sound vibration tainty K to EAV to ELV wheel Number of cuts for channel...
system pressure value*
level LpA* MQ 21/2 MQ 41/2 MQ 41/3
DC 230 S DC-EX 92 dB(A) 5.8 m/s² n.a 89 min. 356 min. AC-D 230 2770 1860 115
2.5 mm USP (11080) (7440) (4200)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Cutting steel bars
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Cutting Flat steel Square steel
removal Sound vibration tainty K to EAV to ELV wheel
Number of cuts for dimensions [mm]…
system pressure value*
level LpA* 10⨯50 20⨯60 30⨯60 30⨯80 13 20 25 30 40
DC 230 S DC-EX 92 dB(A) 5.8 m/s² n.a 89 min. 356 min. AC-D 230 370 140 90 65 1200 470 290 190 100
2.5 mm USP (1480) (560) (360) (260) (4800) (1880) (1160) (760) (400)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
Cutting steel pipes
Basic tool data Productivity data
Tool Dust Emission Triaxial Uncer- Time Time Cutting
removal Sound vibration tainty K to EAV to ELV wheel Number of cuts for diameter [mm] ...
system pressure value*
level LpA* 26.9 (1.6) 33.7 (2) 42.4 (2) 48.3 (2) 60.3 (2) 76.1 (2)
DC 230 S DC-EX 92 dB(A) 5.8 m/s² n.a 89 min. 356 min. AC-D 230 2.5 mm USP 1640 1010 770 670 520 400
(6560) (4040) (3080) (2680) (2080) (1600)
*Emission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x. Uncertainty (k): noise 3 dB, vibraion 1.5 m/s2.
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11. Tool selector 03/2012
Direct fastening tools
DX tool Vibration Noise
Cartridge color Allowed number of fastenings per day Workplace relevant emission value LpA,1s
EAV ELV
2.5 m/s2 5 m/s2
GX120/GX120 ME — 3500 14000 102 dB(A)
GX100/GX100-E — 2700 10800 102 dB(A)
DX351 White 2100 8400
Green 1900 7600
104 dB(A)
Yellow 1100 4400
Red 800 3200
DX460 Green 1300 5200
Yellow 1000 4000
103 dB(A)
Red 1000 4000
Black 600 2400
DX76 Blue 700 2800
Red 600 2400 110 dB(A)
Black 400 1600
*Sound pressure level LpA, 1s measured at user’s ear according to standard EN 12549. Wear ear plugs according to operating instructions.
DX tool Vibration Noise
Cartridge color Allowed number of fastenings per day Workplace relevant emission value LpA,1s
EAV ELV
2.5 m/s2 5 m/s2
DX860 ENP Blue 3500 14000
Red 2600 10400 106 dB(A)
Black 1800 7200
DX860 HSN Yellow 5600 22400
Red 5500 22000
Black 3000 12000
DXE72 Brown 1000 4000
Green 900 3600 103 dB(A)
Yellow 700 2800
DX36 Green 600 2400
Yellow 500 2000
Red 500 2000
*Sound pressure level LpA, 1s measured at user’s ear according to standard EN 12549. Wear ear plugs according to operating instructions.
DX tool Vibration Noise
Cartridge color Allowed number of fastenings per day Workplace relevant emission value LpA,1s
EAV ELV
2.5 m/s2 5 m/s2
DXA41 Green 1300 5200
Yellow 1000 4000
103 dB(A)
Red 1000 4000
Black 600 2400
DX750 Blue 600 2400
Red 500 2000 110 dB(A)
Black 400 1600
*Sound pressure level LpA, 1s measured at user’s ear according to standard EN 12549. Wear ear plugs according to operating instructions.
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12. Tool selector 03/2012
Reciprocating saws
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time Time Saw Application Exposure Exposure
removal sound vibration tainty K to EAV to ELV blade Action Limit
system pressure value ahv* Value Value
level LpA*
Recipro- WSR 22-A n/a 82 dB(A) 16.0 m/s² 1.5 m/s² 12 min. 48 min. WU 20 Cutting off 38 mm chipboard 18.5 m 74 m
cating
saws WSR 22-A n/a 82 dB(A) 18.0 m/s² 1.5 m/s² 9 min. 36 min. WF 23 Cutting off (100 × 100) mm wooden beam 4 m 16 m
WSR 36-A no 90 dB(A) 13 m/s² 3.0 m/s² 18 min. 72 min. WU 20 Cutting chipboard (thickness 38 mm) 46.5 m 186 m
16 m/s² 5.0 m/s² 12 min. 48 min. WF 23 Cutting wooden beams (100 x 100 mm fir) 61 cuts 244 cuts
WSR 650-A no 84 dB(A) 12 m/s² 2.5 m/s² 21 min. 84 min. WU 20 Cutting chipboard (thickness 38 mm) 61 m 244 m
16 m/s² 5.0 m/s² 12 min. 48 min. WF 23 Cutting wooden beams (100 x 100 mm fir) 97 cuts 388 cuts
WSR 900-PE no 89 dB(A) 16 m/s² 2.5 m/s² 12 min. 48 min. WU 20 Cutting chipboard (thickness 38 mm) 47.9 m 191 m
23 m/s² 3.5 m/s² 6 min. 24 min. WF 23 Cutting wooden beams (100 x 100 mm fir) 39 cuts 156 cuts
WSR 1250-PE no 90 dB(A) 22 m/s² 2.5 m/s² 6 min. 24 min. WU 20 Cutting chipboard (thickness 38 mm) 27.9 m 111 m
26.5 m/s² 3.5 m/s² 4 min. 16. min WF 23 Cutting wooden beams (100 x 100 mm fir) 43 cuts 172 cuts
WSR 1400-PE no 91 dB(A) 20 m/s² 2.5 m/s² 8 min. 32 min. WU 20 Cutting chipboard (thickness 38 mm) 34.5 m 138 m
28 m/s² 3.5 m/s² 4 min. 16 min. WF 23 Cutting wooden beams (100 x 100 mm fir) 35 cuts 140 cuts
* mission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x.
E
Uncertainty (k): noise 3dB, vibration 1.5….5 m/s², depending on tool and application.
Jig saws
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time to Time to Saw Application Expo- Expo-
removal sound vibration tainty K EAV ELV blade sure sure
system pressure value ahv* Action Limit
level LpA* Value Value
Jig saws WSJ 750 EB WSJ-DRS 88 dB(A) 13 m/s² 1.5 m/s² 18 min. 72 min. W91/P HCS Cutting chipboard (thickness 38 mm) 50 m 200 m
5 m/s² 1.5 m/s² 120 min. 480 min. M50/2 BIM Cutting sheet metal (thickness 3 mm) 23 m 92 m
WSJ 750 ET WSJ-DRS 87 dB(A) 10.5 m/s² 1.5 m/s² 27 min. 108 min. W91/P HCS Cutting chipboard (thickness 38 mm) 70 m 280 m
4 m/s² 1.5 m/s² 188 min. 752 min. M50/2 BIM Cutting sheet metal (thickness 3 mm) 26 m 104 m
WSJ 850 EB WSJ-DRS 88 dB(A) 11 m/s² 1.5 m/s² 25 min. 100 min. W91/P HCS Cutting chipboard (thickness 38 mm) 75 m 300 m
5 m/s² 1.5 m/s² 120 min. 480 min. M50/2 BIM Cutting sheet metal (thickness 3 mm) 24 m 96 m
WSJ 850 ET WSJ-DRS 87 dB(A) 9 m/s² 1.8 m/s² 37 min. 148 min. W91/P HCS Cutting chipboard (thickness 38 mm) 110 m 440 m
4 m/s² 1.5 m/s² 188 min. 752 min. M50/2 BIM Cutting sheet metal (thickness 3 mm) 29 m 116 m
* mission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x.
E
Uncertainty (k): noise 3dB, vibration 1.5….5 m/s², depending on tool and application.
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13. Tool selector 03/2012
Circular saws
Basic tool data Productivity data
Category Tool Dust Emission Triaxial Uncer- Time to Time to Application Exposure Exposure
removal sound vibration tainty K EAV ELV Action Limit
system pressure value ahv* Value Value
level LpA*
Circular SCW 22-A VC 93 dB(A) 1.2 m/s² 1.5 m/s² 2083 min. 8332 min. Cutting off 38 mm chipboard 13500 m 54000 m
saws Cutting 55 mm softwood 1800 m 7200 m
WSC-55-A24 VC 95 dB(A) 2.5 m/s² 1.5 m/s² 480 min. 1920 min. Cutting off 38 mm chipboard 5200 m 20800 m
Cutting 55 mm softwood 3000 m 12000 m
WSC-55 VC 94 dB(A) 2.5 m/s² n.a 480 min. 1920 min. Cutting off 38 mm chipboard 9000 m 36000 m
Cutting 55 mm softwood 4000 m 16000 m
WSC 70-A36 VC 97 dB(A) 2.5 m/s² n.a 480 min. 1920 min. Cutting off 38 mm chipboard 7400 m 29600 m
Cutting 70 mm softwood 4800 m 19200 m
WSC 70 VC 94 dB(A) 2.5 m/s² n.a 480 min. 1920 min. Cutting off 38 mm chipboard 5000 m 20000 m
Cutting 70 mm softwood 4000 m 16000 m
WSC 85 VC 100 dB(A) 2.5 m/s² n.a 480 min. 1920 min. Cutting off 38 mm chipboard 3300 m 13200 m
Cutting 80 mm softwood 1200 m 4800 m
WSC 255 VC 92 dB(A) 2.5 m/s² n.a 480 min. 1920 min. Cutting off 38 mm chipboard 3500 m 14000 m
Cutting 55 mm softwood 3300 m 13200 m
WSC-265 KE VC 89 dB(A) 2.5 m/s² n.a 480 min. 1920 min. Cutting off 38 mm chipboard 2500 m 10000 m
Cutting 65 mm softwood 3000 m 12000 m
* mission sound pressure level LpA and triaxial vibration value ahv according to the relevant European Standard EN 60745-2-x.
E
Uncertainty (k): noise 3dB, vibration 1.5….5 m/s², depending on tool and application.
How to read the selector. and the number of cutting meters on chipboard the exposure time for wooden beam application as
In this example we show how to find the relevant respectively the number of cuts on wooden beam first approximation for the risk assessment.
data for risk assessment (e.g. number of cuts on a that can be performed with that tool before re-
wooden beam before reaching exposure action aching the exposure action value (EAV, column Example: With WSR36-A using the WF23 saw
value and exposure limit value.) The sound pressu- 5 and 6) or the exposure limit value (ELV, column 7 blade you can perform 61 cuts in wooden beam
re level of these tools is shown in the third column. and 8). Please note that these values are only 100 ⨯ 100 mm before reaching exposure action
The next column shows the triaxial vibration value valid with the appropriate saw blade used (menti- value and 244 cuts before reaching exposure
required for a risk analysis. The next part of the oned in last column)If you have to perform applica- limit value.
selector shows the time the tool can be operated tion not mentioned in the selector, you can use
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