David Wilkinson invented a screw-cutting lathe in 1794 that helped advance the machine tool industry. The lathe cuts metal and sometimes other materials by rotating the workpiece and advancing a cutting tool. Proper machine guarding and safety precautions are necessary when operating a lathe to prevent injuries from rotating parts, flying chips, and other hazards. Operators should wear personal protective equipment and follow lockout/tagout procedures during maintenance.
The document discusses various power tool safety hazards and guidelines. It outlines hazards from improper tool use including loss of vision, puncture wounds, severed fingers, and broken bones. It provides safety rules for maintaining tools, using the right PPE, and operating tools properly. Guidelines are given for specific tools like grinders, saws, drills, and pneumatic tools to prevent injuries from moving parts and flying debris.
This training presentation provides information on hand and power tool safety. It discusses general safety precautions like using the proper tool for the job and examining tools for damage before use. It also covers specific guidelines for different types of hand tools and power tools, which are classified by their power source. Employees have a responsibility to follow the five basic safety rules and use appropriate protective equipment when operating tools.
This document provides information on machine guarding for warehouse and maintenance workers. It discusses the problem of injuries and deaths caused by machinery each year. Common machinery associated with amputations are listed. Reaching into machinery, not using lockout/tagout procedures, unauthorized use, missing or loose guards, and lack of training are identified as causes of machine incidents. The document outlines OSHA requirements for guarding machinery, including guarding points of operation, power transmission areas, and other moving parts. It describes different types of guards and safety devices and responsibilities of management, supervisors and employees to ensure machinery is properly safeguarded.
The document discusses various hazards associated with the use of hand tools and power tools and provides guidance on safe operation. It notes that hazards are usually caused by misuse, improper maintenance, lack of personal protective equipment, or failure to use guards. The document provides safety tips for proper use of both hand and power tools, including inspecting tools before use, wearing protective equipment, using guards, following manufacturers' instructions, and properly storing and maintaining tools.
The document discusses materials handling and storage safety. It provides guidance on preventing common injuries from handling materials, which account for 20-45% of occupational injuries. Proper personal protective equipment like gloves, safety shoes, and protective clothing can help reduce strains, sprains, fractures and contusions. The document also discusses fall protection, guidelines for safe lifting based on weight and force limits, and proper use of tools and accessories to reduce injury risks from manual handling activities.
Mechanical Technology Grade 12 Chapter 3 Safety In The WorkshopFuture Managers
This slide show accompanies the learner guide "Mechanical Technology Grade 10" by Charles Goodwin, Andre Lategan & Daniel Meyer, published by Future Managers Pty Ltd. For more information visit our website www.futuremanagers.net
This document outlines requirements and safety procedures for working at heights. It discusses proper fall protection equipment like harnesses and lifelines, as well as safety protocols like hazard identification checklists and permits. Temporary anchor points must be approved and capable of withstanding significant loads. Proper PPE like hard hats is required, and workers must be trained before working alone or using fall arrest vs. restraint systems.
The document discusses various power tool safety hazards and guidelines. It outlines hazards from improper tool use including loss of vision, puncture wounds, severed fingers, and broken bones. It provides safety rules for maintaining tools, using the right PPE, and operating tools properly. Guidelines are given for specific tools like grinders, saws, drills, and pneumatic tools to prevent injuries from moving parts and flying debris.
This training presentation provides information on hand and power tool safety. It discusses general safety precautions like using the proper tool for the job and examining tools for damage before use. It also covers specific guidelines for different types of hand tools and power tools, which are classified by their power source. Employees have a responsibility to follow the five basic safety rules and use appropriate protective equipment when operating tools.
This document provides information on machine guarding for warehouse and maintenance workers. It discusses the problem of injuries and deaths caused by machinery each year. Common machinery associated with amputations are listed. Reaching into machinery, not using lockout/tagout procedures, unauthorized use, missing or loose guards, and lack of training are identified as causes of machine incidents. The document outlines OSHA requirements for guarding machinery, including guarding points of operation, power transmission areas, and other moving parts. It describes different types of guards and safety devices and responsibilities of management, supervisors and employees to ensure machinery is properly safeguarded.
The document discusses various hazards associated with the use of hand tools and power tools and provides guidance on safe operation. It notes that hazards are usually caused by misuse, improper maintenance, lack of personal protective equipment, or failure to use guards. The document provides safety tips for proper use of both hand and power tools, including inspecting tools before use, wearing protective equipment, using guards, following manufacturers' instructions, and properly storing and maintaining tools.
The document discusses materials handling and storage safety. It provides guidance on preventing common injuries from handling materials, which account for 20-45% of occupational injuries. Proper personal protective equipment like gloves, safety shoes, and protective clothing can help reduce strains, sprains, fractures and contusions. The document also discusses fall protection, guidelines for safe lifting based on weight and force limits, and proper use of tools and accessories to reduce injury risks from manual handling activities.
Mechanical Technology Grade 12 Chapter 3 Safety In The WorkshopFuture Managers
This slide show accompanies the learner guide "Mechanical Technology Grade 10" by Charles Goodwin, Andre Lategan & Daniel Meyer, published by Future Managers Pty Ltd. For more information visit our website www.futuremanagers.net
This document outlines requirements and safety procedures for working at heights. It discusses proper fall protection equipment like harnesses and lifelines, as well as safety protocols like hazard identification checklists and permits. Temporary anchor points must be approved and capable of withstanding significant loads. Proper PPE like hard hats is required, and workers must be trained before working alone or using fall arrest vs. restraint systems.
This document provides an overview of roofing fall protection training requirements. It discusses the need to develop a fall protection plan specific to each worksite and train employees. The training covers types of fall arrest equipment like full body harnesses and catch platforms, anchor requirements, inspection of equipment, and rescue procedures. Trainees are instructed to describe their specific worksite policies and procedures for handling materials, providing overhead protection, and rescuing fallen workers. The goal is to meet WISHA regulations by training roofers on fall hazards and fall protection methods tailored to their jobsite.
The following will be covered in this preparation;
Working at height regulation 2005
Working at height — Main accidents that occur:
What is working at height?
What dose work height mean?
Working at height – Preparation
How to reduce or control working at height accidents?
Do’s and don’ts of working at height and ground
One of the main accidents that occur when working at height
Fatal fall injuries to workers, top three industries, 2001/02 to 2013/14p
This document discusses caught-in and between hazards, which are the fourth leading cause of construction worker deaths. It defines caught-in/between hazards as injuries caused by being crushed by or caught between objects, machinery, or equipment. The document then provides examples of common caught-in/between hazards like unguarded machinery, trench collapses, and getting pinned between equipment and structures. It also outlines steps workers and employers can take to protect against these hazards, such as using proper machine guarding, fall protection, and trench shoring.
This chapter discusses safety practices for hand and portable power tools. It notes that misuse of these tools can cause serious injuries and that they account for 6-8% of disabling injuries each year. The chapter covers proper tool selection, safety practices like using personal protective equipment and selecting the right tool for the job. It also discusses inspection and maintenance of tools, as well as safe operation of common hand tools like screwdrivers and hammers, and power tools like electric drills. The goal is to help prevent accidents and injuries caused by improper use of hand and portable power tools.
This document provides guidance on working safely at height using ladders and steps. It discusses selecting the appropriate equipment based on a risk assessment and hierarchy of fall protection. Key points include maintaining three points of contact, ensuring ladders are stable, leveled and secured properly, the requirements for short duration and low risk work, and basic safety checks for ladders and steps. Records of inspections are required to be kept and both employee and employer responsibilities for health and safety are outlined.
This document provides an overview of machine guarding for injection molding machines. It identifies common injuries that can occur like amputations or burns. Causes include reaching into hazardous areas of machines or bypassing safety guards. The document outlines how to safely operate machines through proper guarding of areas like the point of operation and use of safety devices. It emphasizes adopting a total safety approach to protect workers from injury risks in injection molding processes.
The document provides guidance on hand and power tool safety. It describes general safety guidelines and regulations for proper use and maintenance of various types of hand tools, power tools, and personal protective equipment. Key points covered include inspecting tools for defects, wearing proper PPE like safety glasses, avoiding hazards from moving parts by using guards, following manufacturers' instructions, and keeping work areas uncluttered.
Cave-ins pose the greatest risk in excavations. Employees can be protected from cave-ins through the use of protective systems like sloping, shielding, or shoring. Other excavation hazards include asphyxiation, toxic fumes, fire, machinery near the edge, and severing of utility lines. Proper inspections by a competent person and adherence to safety requirements are needed to protect workers from excavation dangers.
This document provides an overview of safety training for the safe use of power tools. It discusses applicable regulations, specific hazards of power tools like electricity, vibration, noise and injuries. It outlines safe practices like use of personal protective equipment and proper guarding of tools. It provides guidance on safe work practices for different types of power tools and ensuring tools are suitable, inspected, and users are trained for their proper use.
The document provides information about angle grinder safety. It describes how angle grinders are commonly used power tools that can pose serious hazards. It discusses typical injuries such as cuts, burns and eye injuries that can occur from sparks and debris or disc failure. The document also presents a case study of a fatal accident caused by an operator removing the safety guard and using an improperly sized disc. It emphasizes the importance of using proper personal protective equipment, inspecting the tool and disc, and securing the workpiece.
Workers using hand and power tools may be exposed to various hazards such as flying objects or harmful dusts and fumes. Proper safety practices include regularly maintaining tools, using the right tool for the job, inspecting tools before use, wearing personal protective equipment like gloves and goggles, using tool guards as intended, and following manufacturers' instructions. Power tools require additional precautions like disconnecting when not in use, keeping others away from the work area, and ensuring cords are not damaged. Abrasive wheels should be carefully inspected for cracks before use and only operated within their rated limits.
Office workers just like production workers or other personnel working other jobs can be at risk to injury and illness. These injuries may be related to slip, trips, and fall hazards, human factors and ergonomics, etc. while occupational illness may be related to chemicals used in consumer products, indoor air quality from environmental working conditions, and contact with sensitizing or irritating agents. Aware of your surroundings helps reduce the risk of injury and illness and knowing what to do to protect yourself is also beneficial.
The greatest risk in an excavation is a cave-in. Employees can be protected from cave-ins through sloping, shielding, or shoring the sides of the excavation. Other excavation hazards include asphyxiation, toxic fumes, fire, moving machinery near the edge, and severing of utility lines. A competent person must inspect excavations daily and address any issues to protect employees.
The document provides safety guidelines for lifting workers and materials at a construction site using passenger lifts and material hoists. Key points include installing passenger lifts according to manufacturer specifications, operating material hoists within rated load capacities and speeds, using personal fall arrest systems like harnesses and lanyards, inspecting equipment, and implementing fall protection programs including guardrails and screens to contain falling objects. Workers should be trained on safe equipment use and fall hazards assessed before each job.
Fall Protection Refresher Orientation Training by Rafael Coll & John CassidyAtlantic Training, LLC.
This document provides an overview of fall protection requirements and best practices. It begins by outlining the course objectives which are to understand definitions of fall prevention, restraint, and arrest; requirements; hazards; and where to seek help. It then discusses statistics on falls as a leading cause of fatalities and injuries in construction. Common fall locations are also outlined. Planning, controlling exposures, systems, hazard recognition, anchorage, and personal protective equipment are all reviewed in detail. The key requirements are that fall protection is required when working 6 feet or more above a lower level in construction or 4 feet in general industry. Proper selection, use, inspection and maintenance of fall protection systems is critical to ensuring worker safety.
This document provides safety precautions and guidelines for using grinding machines. It lists several hazards to be aware of such as hot metal sparks, noise, sharp edges and entanglement. Key safety tips include wearing protective goggles, checking wheels for cracks before use, not exceeding recommended wheel speeds or depths of cut, removing the workpiece before turning off the machine, and using proper wheel guards. Personal protective equipment like safety glasses, protective clothing, and hearing protection are advised.
Safety hazards in machines -material handlingAlfredFranklinV
This document discusses safety hazards related to machinery and material handling. It covers safeguards for machinery, safety procedures for machines like lathes, grinders, and welding equipment. It also addresses hazards from moving parts, electricity, heat/cold. Proper personal protective equipment and following maintenance procedures are emphasized. Material handling safety includes both manual and mechanical methods, prioritizing lifting assistance, load size/weight limits, and using equipment appropriately.
Construction electrical safety 023 Power and Hand Tools Safety.pptRamana Reddy G
Power tools and hand tools can cause serious injuries if not used properly. It is important to inspect tools before use, only use recommended attachments, wear personal protective equipment like gloves and eye protection, and follow manufacturers' safety instructions. Guards should be kept in place to protect from moving parts. Workers must be trained to use tools safely and be aware of hazards like flying debris, electrical shock, and ergonomic stresses. When in doubt, do not operate the tool.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...jfdjjskekksemm
The document provides safety precautions and cautions for working on and servicing a hydraulic excavator. It outlines general safety rules like wearing protective equipment, blocking the machine securely, and releasing pressure from hydraulic systems before working on them. It also provides cautions for specific tasks like fueling, battery work, and tire maintenance. Disassembly and reassembly of the machine should involve cleaning parts, recording machine conditions, and marking parts for matching during reassembly.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...fkksejfjskemm
This workshop manual provides instructions for maintenance and repair of the TB175WHydraulic Excavator. It is intended to help improve maintenance techniques. The manual explains procedures for disassembly and reassembly, maintenance checks, troubleshooting, specifications and more. Safety precautions are outlined that technicians should follow when working on the excavator, including proper protective equipment, blocking the machine securely, and avoiding moving parts.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...fujsjefskememaq
This workshop manual provides instructions for maintenance and repair of the TB175WHydraulic Excavator. It includes procedures for disassembly and reassembly, maintenance checks, troubleshooting help, and specifications. Safety precautions outlined in the manual include wearing protective equipment, blocking the machine securely before working under it, and shutting off the engine before performing maintenance.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...dfujskeksmefm
This workshop manual provides instructions for maintenance and repair of the TB175WHydraulic Excavator. It is intended to help improve maintenance techniques. The manual explains procedures for disassembly and reassembly, maintenance checks, troubleshooting, specifications and other service activities. Safety precautions are outlined that personnel should follow when working on the machine, including the use of protective equipment and blocking the machine securely.
This document provides an overview of roofing fall protection training requirements. It discusses the need to develop a fall protection plan specific to each worksite and train employees. The training covers types of fall arrest equipment like full body harnesses and catch platforms, anchor requirements, inspection of equipment, and rescue procedures. Trainees are instructed to describe their specific worksite policies and procedures for handling materials, providing overhead protection, and rescuing fallen workers. The goal is to meet WISHA regulations by training roofers on fall hazards and fall protection methods tailored to their jobsite.
The following will be covered in this preparation;
Working at height regulation 2005
Working at height — Main accidents that occur:
What is working at height?
What dose work height mean?
Working at height – Preparation
How to reduce or control working at height accidents?
Do’s and don’ts of working at height and ground
One of the main accidents that occur when working at height
Fatal fall injuries to workers, top three industries, 2001/02 to 2013/14p
This document discusses caught-in and between hazards, which are the fourth leading cause of construction worker deaths. It defines caught-in/between hazards as injuries caused by being crushed by or caught between objects, machinery, or equipment. The document then provides examples of common caught-in/between hazards like unguarded machinery, trench collapses, and getting pinned between equipment and structures. It also outlines steps workers and employers can take to protect against these hazards, such as using proper machine guarding, fall protection, and trench shoring.
This chapter discusses safety practices for hand and portable power tools. It notes that misuse of these tools can cause serious injuries and that they account for 6-8% of disabling injuries each year. The chapter covers proper tool selection, safety practices like using personal protective equipment and selecting the right tool for the job. It also discusses inspection and maintenance of tools, as well as safe operation of common hand tools like screwdrivers and hammers, and power tools like electric drills. The goal is to help prevent accidents and injuries caused by improper use of hand and portable power tools.
This document provides guidance on working safely at height using ladders and steps. It discusses selecting the appropriate equipment based on a risk assessment and hierarchy of fall protection. Key points include maintaining three points of contact, ensuring ladders are stable, leveled and secured properly, the requirements for short duration and low risk work, and basic safety checks for ladders and steps. Records of inspections are required to be kept and both employee and employer responsibilities for health and safety are outlined.
This document provides an overview of machine guarding for injection molding machines. It identifies common injuries that can occur like amputations or burns. Causes include reaching into hazardous areas of machines or bypassing safety guards. The document outlines how to safely operate machines through proper guarding of areas like the point of operation and use of safety devices. It emphasizes adopting a total safety approach to protect workers from injury risks in injection molding processes.
The document provides guidance on hand and power tool safety. It describes general safety guidelines and regulations for proper use and maintenance of various types of hand tools, power tools, and personal protective equipment. Key points covered include inspecting tools for defects, wearing proper PPE like safety glasses, avoiding hazards from moving parts by using guards, following manufacturers' instructions, and keeping work areas uncluttered.
Cave-ins pose the greatest risk in excavations. Employees can be protected from cave-ins through the use of protective systems like sloping, shielding, or shoring. Other excavation hazards include asphyxiation, toxic fumes, fire, machinery near the edge, and severing of utility lines. Proper inspections by a competent person and adherence to safety requirements are needed to protect workers from excavation dangers.
This document provides an overview of safety training for the safe use of power tools. It discusses applicable regulations, specific hazards of power tools like electricity, vibration, noise and injuries. It outlines safe practices like use of personal protective equipment and proper guarding of tools. It provides guidance on safe work practices for different types of power tools and ensuring tools are suitable, inspected, and users are trained for their proper use.
The document provides information about angle grinder safety. It describes how angle grinders are commonly used power tools that can pose serious hazards. It discusses typical injuries such as cuts, burns and eye injuries that can occur from sparks and debris or disc failure. The document also presents a case study of a fatal accident caused by an operator removing the safety guard and using an improperly sized disc. It emphasizes the importance of using proper personal protective equipment, inspecting the tool and disc, and securing the workpiece.
Workers using hand and power tools may be exposed to various hazards such as flying objects or harmful dusts and fumes. Proper safety practices include regularly maintaining tools, using the right tool for the job, inspecting tools before use, wearing personal protective equipment like gloves and goggles, using tool guards as intended, and following manufacturers' instructions. Power tools require additional precautions like disconnecting when not in use, keeping others away from the work area, and ensuring cords are not damaged. Abrasive wheels should be carefully inspected for cracks before use and only operated within their rated limits.
Office workers just like production workers or other personnel working other jobs can be at risk to injury and illness. These injuries may be related to slip, trips, and fall hazards, human factors and ergonomics, etc. while occupational illness may be related to chemicals used in consumer products, indoor air quality from environmental working conditions, and contact with sensitizing or irritating agents. Aware of your surroundings helps reduce the risk of injury and illness and knowing what to do to protect yourself is also beneficial.
The greatest risk in an excavation is a cave-in. Employees can be protected from cave-ins through sloping, shielding, or shoring the sides of the excavation. Other excavation hazards include asphyxiation, toxic fumes, fire, moving machinery near the edge, and severing of utility lines. A competent person must inspect excavations daily and address any issues to protect employees.
The document provides safety guidelines for lifting workers and materials at a construction site using passenger lifts and material hoists. Key points include installing passenger lifts according to manufacturer specifications, operating material hoists within rated load capacities and speeds, using personal fall arrest systems like harnesses and lanyards, inspecting equipment, and implementing fall protection programs including guardrails and screens to contain falling objects. Workers should be trained on safe equipment use and fall hazards assessed before each job.
Fall Protection Refresher Orientation Training by Rafael Coll & John CassidyAtlantic Training, LLC.
This document provides an overview of fall protection requirements and best practices. It begins by outlining the course objectives which are to understand definitions of fall prevention, restraint, and arrest; requirements; hazards; and where to seek help. It then discusses statistics on falls as a leading cause of fatalities and injuries in construction. Common fall locations are also outlined. Planning, controlling exposures, systems, hazard recognition, anchorage, and personal protective equipment are all reviewed in detail. The key requirements are that fall protection is required when working 6 feet or more above a lower level in construction or 4 feet in general industry. Proper selection, use, inspection and maintenance of fall protection systems is critical to ensuring worker safety.
This document provides safety precautions and guidelines for using grinding machines. It lists several hazards to be aware of such as hot metal sparks, noise, sharp edges and entanglement. Key safety tips include wearing protective goggles, checking wheels for cracks before use, not exceeding recommended wheel speeds or depths of cut, removing the workpiece before turning off the machine, and using proper wheel guards. Personal protective equipment like safety glasses, protective clothing, and hearing protection are advised.
Safety hazards in machines -material handlingAlfredFranklinV
This document discusses safety hazards related to machinery and material handling. It covers safeguards for machinery, safety procedures for machines like lathes, grinders, and welding equipment. It also addresses hazards from moving parts, electricity, heat/cold. Proper personal protective equipment and following maintenance procedures are emphasized. Material handling safety includes both manual and mechanical methods, prioritizing lifting assistance, load size/weight limits, and using equipment appropriately.
Construction electrical safety 023 Power and Hand Tools Safety.pptRamana Reddy G
Power tools and hand tools can cause serious injuries if not used properly. It is important to inspect tools before use, only use recommended attachments, wear personal protective equipment like gloves and eye protection, and follow manufacturers' safety instructions. Guards should be kept in place to protect from moving parts. Workers must be trained to use tools safely and be aware of hazards like flying debris, electrical shock, and ergonomic stresses. When in doubt, do not operate the tool.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...jfdjjskekksemm
The document provides safety precautions and cautions for working on and servicing a hydraulic excavator. It outlines general safety rules like wearing protective equipment, blocking the machine securely, and releasing pressure from hydraulic systems before working on them. It also provides cautions for specific tasks like fueling, battery work, and tire maintenance. Disassembly and reassembly of the machine should involve cleaning parts, recording machine conditions, and marking parts for matching during reassembly.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...fkksejfjskemm
This workshop manual provides instructions for maintenance and repair of the TB175WHydraulic Excavator. It is intended to help improve maintenance techniques. The manual explains procedures for disassembly and reassembly, maintenance checks, troubleshooting, specifications and more. Safety precautions are outlined that technicians should follow when working on the excavator, including proper protective equipment, blocking the machine securely, and avoiding moving parts.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...fujsjefskememaq
This workshop manual provides instructions for maintenance and repair of the TB175WHydraulic Excavator. It includes procedures for disassembly and reassembly, maintenance checks, troubleshooting help, and specifications. Safety precautions outlined in the manual include wearing protective equipment, blocking the machine securely before working under it, and shutting off the engine before performing maintenance.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...dfujskeksmefm
This workshop manual provides instructions for maintenance and repair of the TB175WHydraulic Excavator. It is intended to help improve maintenance techniques. The manual explains procedures for disassembly and reassembly, maintenance checks, troubleshooting, specifications and other service activities. Safety precautions are outlined that personnel should follow when working on the machine, including the use of protective equipment and blocking the machine securely.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...olfjsekdmmes
The document provides safety precautions and cautions for working on and servicing a hydraulic excavator. It outlines general safety rules like wearing protective equipment, blocking the machine securely, and releasing pressure from hydraulic systems before working on them. It also provides cautions for specific tasks like fueling, battery work, and tire maintenance. Disassembly and reassembly of the machine should involve cleaning parts, recording machine conditions, and marking parts for matching during reassembly.
Takeuchi tb175 w hydraulic excavator service repair workshop manual (serial n...ujjjjfkksekmmdm
This document provides a workshop manual for a TB175W hydraulic excavator. It contains safety precautions and cautions for disassembly, assembly, removal and installation of parts. Sections include general information, specifications, machine configuration, hydraulic units, and troubleshooting. Maintenance personnel should follow the safety guidelines and use this manual as a reference for service activities.
This document provides an introduction and training on operating a lathe machine. It covers health and safety, machine parts and functions, workholding devices, cutting tools, grinding tools, and types of turning operations. The objectives of the training are to safely operate a lathe, set up tooling, and clean down the machine. Assessment tasks involve independently manufacturing parts using a lathe and demonstrating grinding skills. Overall the document aims to give trainees the skills and knowledge to operate a lathe safely and complete assessment objectives.
Takeuchi tb175 hydraulic excavator service repair workshop manual (serial no....fjjsjefkskemme
This document provides safety precautions and guidelines for maintenance personnel working on a TB175 hydraulic excavator. It outlines proper procedures such as stopping the engine before work, securely blocking parts, wearing protective equipment, and handling hoses carefully to avoid leaks. The document contains sections on general safety, work area preparation, fire prevention, and cautions specific to disassembly, removal and installation of parts.
Takeuchi tb175 hydraulic excavator service repair workshop manual (serial no....fdjjskekksmem
This workshop manual provides instructions for maintenance and repair of a TB175 hydraulic excavator. It includes procedures for disassembly and reassembly, maintenance checks, troubleshooting, specifications and safety precautions. The safety precautions section outlines important rules for working on the machine safely, including wearing protective equipment, blocking the machine securely, and avoiding moving parts.
Takeuchi tb175 hydraulic excavator service repair workshop manual (serial no....fujsjefjskekmme
This document provides instructions and safety precautions for maintaining a TB175 hydraulic excavator. It contains sections on general information, specifications, machine configuration, hydraulic units, troubleshooting, and the engine. Safety must be the top priority when performing any maintenance. Proper protective equipment and blocking of moving parts is required. Pressurized fluids can cause injury, so pressure must be released before working on hydraulic or fuel systems. Only qualified personnel should perform maintenance following all safety procedures.
Takeuchi tb175 hydraulic excavator service repair workshop manual (serial no....dfujsejfskekem
This document provides safety precautions and guidelines for maintenance personnel working on a TB175 hydraulic excavator. It outlines proper procedures such as stopping the engine before work, securely blocking parts, wearing protective equipment, and handling hoses carefully to avoid leaks. The document contains sections on general safety, work area preparation, fire prevention, and cautions specific to disassembly, removal and installation of parts.
Takeuchi tb175 hydraulic excavator service repair workshop manual (serial no....fjskekazxdmmme
This document provides instructions and safety precautions for maintaining a TB175 hydraulic excavator. It contains sections on general information, specifications, machine configuration, hydraulic units, troubleshooting, and the engine. Safety must be the top priority when performing any maintenance. Proper protective equipment and blocking of moving parts is required. Pressurized fluids can cause injury, so pressure must be released before working on hydraulic or fuel systems. Only qualified personnel should perform maintenance following all safety procedures.
This manual provides instructions for maintenance procedures of a machine, including disassembly, reassembly, inspections, specifications, and troubleshooting. It emphasizes several important safety precautions for technicians performing maintenance, such as wearing protective equipment, blocking the machine securely, and avoiding moving parts. The document defines terms like front/rear and left/right sides of the machine and explains that the machine's serial number should be included when ordering parts.
This manual provides instructions for maintenance procedures of a machine, including disassembly, reassembly, inspections, specifications, and troubleshooting. It emphasizes several important safety precautions for technicians performing maintenance, such as wearing protective equipment, blocking the machine securely, and avoiding moving parts. The document defines terms like front/rear and left/right in relation to the machine's orientation and components.
Takeuchi TB138FR Compact Excavator Service Repair Workshop Manual (Serial No....fujfdjjsjkkmee
This manual provides instructions for maintenance procedures such as disassembly, reassembly, inspection, and troubleshooting of the machine. It explains safety precautions that should be followed when performing maintenance. Symbols used in the manual are defined. The contents section provides an overview of the sections and topics covered in the manual.
This manual provides instructions for maintenance procedures such as disassembly, reassembly, inspections, and troubleshooting for a machine. It is intended to be used as a reference for maintenance technicians. The manual explains machine terminology, safety precautions to follow when working on the machine, and outlines the contents of the manual.
This manual provides instructions for maintenance procedures such as disassembly, reassembly, inspections, and troubleshooting for a machine. It explains maintenance techniques and reference values to improve maintenance. Safety precautions are outlined, including wearing protective equipment and blocking the machine securely before working on it. Symbols used in the manual are defined. The contents section lists the chapters included.
Takeuchi TB138FR Compact Excavator Service Repair Workshop Manual (Serial No....ufjkskdmdmd
This manual provides instructions for maintenance procedures on a machine. It begins with safety precautions for working on the machine and handling fluids. It provides definitions for terms like front/rear and left/right in relation to the machine. It requests that the machine's serial number be included when ordering parts. It provides symbols used in the manual and an outline of its contents.
How To Fix The Key Not Detected Issue In Mercedes CarsIntegrity Motorcar
Experiencing a "Key Not Detected" problem in your Mercedes? Don’t take it for granted. Go through this presentation to find out the exact nature of the issue you are dealing with. Have your vehicle checked by a certified professional if necessary.
Welcome to ASP Cranes, your trusted partner for crane solutions in Raipur, Chhattisgarh! With years of experience and a commitment to excellence, we offer a comprehensive range of crane services tailored to meet your lifting and material handling needs.
At ASP Cranes, we understand the importance of reliable and efficient crane operations in various industries, from construction and manufacturing to logistics and infrastructure development. That's why we strive to deliver top-notch solutions that enhance productivity, safety, and cost-effectiveness for our clients.
Our services include:
Crane Rental: Whether you need a crawler crane for heavy lifting or a hydraulic crane for versatile operations, we have a diverse fleet of well-maintained cranes available for rent. Our rental options are flexible and can be customized to suit your project requirements.
Crane Sales: Looking to invest in a crane for your business? We offer a wide selection of new and used cranes from leading manufacturers, ensuring you find the perfect equipment to match your needs and budget.
Crane Maintenance and Repair: To ensure optimal performance and safety, regular maintenance and timely repairs are essential for cranes. Our team of skilled technicians provides comprehensive maintenance and repair services to keep your equipment running smoothly and minimize downtime.
Crane Operator Training: Proper training is crucial for safe and efficient crane operation. We offer specialized training programs conducted by certified instructors to equip operators with the skills and knowledge they need to handle cranes effectively.
Custom Solutions: We understand that every project is unique, which is why we offer custom crane solutions tailored to your specific requirements. Whether you need modifications, attachments, or specialized equipment, we can design and implement solutions that meet your needs.
At ASP Cranes, customer satisfaction is our top priority. We are dedicated to delivering reliable, cost-effective, and innovative crane solutions that exceed expectations. Contact us today to learn more about our services and how we can support your project in Raipur, Chhattisgarh, and beyond. Let ASP Cranes be your trusted partner for all your crane needs!
Learn why monitoring your Mercedes' Exhaust Back Pressure (EBP) sensor is crucial. Understand its role in engine performance and emission reduction. Discover five warning signs of EBP sensor failure, from loss of power to increased emissions. Take action promptly to avoid costly repairs and maintain your Mercedes' reliability and efficiency.
The Octavia range embodies the design trend of the Škoda brand: a fusion of
aesthetics, safety and practicality. Whether you see the car as a whole or step
closer and explore its unique features, the Octavia range radiates with the
harmony of functionality and emotion
Your VW's camshaft position sensor is crucial for engine performance. Signs of failure include engine misfires, difficulty starting, stalling at low speeds, reduced fuel efficiency, and the check engine light. Prompt inspection and replacement can prevent further damage and keep your VW running smoothly.
Fleet management these days is next to impossible without connected vehicle solutions. Why? Well, fleet trackers and accompanying connected vehicle management solutions tend to offer quite a few hard-to-ignore benefits to fleet managers and businesses alike. Let’s check them out!
Comprehensive program for Agricultural Finance, the Automotive Sector, and Empowerment . We will define the full scope and provide a detailed two-week plan for identifying strategic partners in each area within Limpopo, including target areas.:
1. Agricultural : Supporting Primary and Secondary Agriculture
• Scope: Provide support solutions to enhance agricultural productivity and sustainability.
• Target Areas: Polokwane, Tzaneen, Thohoyandou, Makhado, and Giyani.
2. Automotive Sector: Partnerships with Mechanics and Panel Beater Shops
• Scope: Develop collaborations with automotive service providers to improve service quality and business operations.
• Target Areas: Polokwane, Lephalale, Mokopane, Phalaborwa, and Bela-Bela.
3. Empowerment : Focusing on Women Empowerment
• Scope: Provide business support support and training to women-owned businesses, promoting economic inclusion.
• Target Areas: Polokwane, Thohoyandou, Musina, Burgersfort, and Louis Trichardt.
We will also prioritize Industrial Economic Zone areas and their priorities.
Sign up on https://profilesmes.online/welcome/
To be eligible:
1. You must have a registered business and operate in Limpopo
2. Generate revenue
3. Sectors : Agriculture ( primary and secondary) and Automative
Women and Youth are encouraged to apply even if you don't fall in those sectors.
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Implementing ELDs or Electronic Logging Devices is slowly but surely becoming the norm in fleet management. Why? Well, integrating ELDs and associated connected vehicle solutions like fleet tracking devices lets businesses and their in-house fleet managers reap several benefits. Check out the post below to learn more.
What Are The Immediate Steps To Take When The VW Temperature Light Starts Fla...Import Motorworks
Learn how to respond when the red temperature light flashes in your VW with this presentation. From checking coolant levels to seeking professional help, follow these steps promptly to prevent engine damage and ensure safety on the road.
2. David Wilkinson was a U.S. mechanical
engineer who invented a lathe for
cutting screw threads, which was
extremely important in the
development of the machine tool
industry in the early 19th century.
ORIGIN
3. In 1794, Wilkinson designed a
screw-cutting lathe with a slide
rest on which he obtained a
patent in 1798. It is not known
how many of these lathes
Wilkinson produced in his own
plant, but in 1848 a Senate
Committee found that there
were more than 200 such
lathes in use in government
workshops alone.
4. WHAT IT DOES
The lathe is a machine tool used
principally for shaping pieces of
metal (and sometimes wood or
other materials) by causing the
workpiece to be held and rotated
by the lathe while a tool bit is
advanced into the work causing
the cutting action.
6. WHO IS OSHA
With the Occupational Safety and Health Act of 1970, Congress
created the Occupational Safety and Health Administration (OSHA) to
assure safe and healthful working conditions for working men and
women by setting and enforcing standards and by providing training,
outreach, education and assistance.
ORGANIZATION
OSHA is part of the United States Department of Labor. The
administrator for OSHA is the Assistant Secretary of Labor for
Occupational Safety and Health. OSHA's administrator answers to
the Secretary of Labor, who is a member of the cabinet of the
President of the United States.
7. KNOW YOUR RIGHTS
Under federal law, you are entitled to a safe workplace.
Your employer must provide a workplace free of known
health and safety hazards. If you have concerns, you
have the right to speak up about them without fear of
retaliation. You also have the right to:
• Be trained in a language you understand
• Work on machines that are safe
• Be provided required safety gear, such as gloves or a
harness and lifeline for falls
• Be protected from toxic chemicals
• Request an OSHA inspection, and speak to the
inspector
• Report an injury or illness, and get copies of your
medical records
• See copies of the workplace injury and illness log
• Review records of work-related injuries and illnesses
• Get copies of test results done to find hazards in the
workplace
9. WHAT IS MACHINE GUARDING?
A means of shielding employees from moving or flying
parts and preventing them from accidentally coming
into contact with moving pieces of equipment
10. Possible machinery-related injuries include:
• Crushed fingers or hands
• Amputations
• Burns
• Blindness
A good rule to remember is:
Any machine part, function, or process which
may cause injury must be safeguarded
MACHINERY-RELATED INJURIES
12. Three fundamental machine areas:
• Point of operation
• Power transmission device
• Other moving parts – Operating
controls such as mechanical or
electric power control
BASIC MACHINERY PARTS
AND HAZARDS
17. POTENTIAL HAZARDS
The primary hazards of lathes are
contact with rotating parts and contact
at the point of operation.An operator
can be pulled into the lathe from
working too close, or wearing gloves,
loose clothing, loose hair, or jewelry.
Trapping spaces are also created
between the cutting tool, its mounting,
and the workpiece or chuck. Projected
parts or material such as chuck keys,
unsecured workpieces, flying chips and
coolant also strike or present hazards to
the operator.
18. PREVENTING INJURIES AND
AMPUTATIONS
• Do not remove the any guards, or
other devices
• Do not operate the lathe unless you
are trained and authorized to
operate the machine
• Know where the location of the OFF
switch and the emergency stop are
19. PREVENTING INJURIES AND
AMPUTATIONS
• Move the work holding device back to
a safe distance when loading or
unloading parts and measuring the
work while the cutter is still rotating
unless the cutter is guarded
• Do not reach around the cutter or hob
to remove chips while the machine is
in motion or not locked or tagged out
• If performing service and
maintenance activities follow lock out
tag out procedures
20. SAFETY PRECAUTIONS I
• Be sure the work and holding
device are firmly attached
• Turn chuck by hand, with lathe
turned OFF, to be sure there is
no danger of striking any part of
the lathe
• Always remove the chuck key
from the chuck immediately after
use, and before operating the
lathe
21. SAFETY PRECAUTIONS II
• Keep the machine clear of tools.
Tools must not be placed on the
ways of the lathe
• Stop the lathe before making any
measurements, adjustments, or
cleaning
• Support all work solidly. Do not
permit small diameter work to
project too far from the chuck (not
over 3X the work's diameter)
without support
22. SAFETY PRECAUTIONS III
• If work must be repositioned
or removed from the lathe. Move
cutting tool clear of work to
prevent any accidental injuries
• You should always be aware
of direction of travel and speed
of carriage before you engage
automatic feed
23. SAFETY PRECAUTIONS IV
• Chips are sharp. Do not
attempt to remove them with
your hand when they become
“stringy” and build up on the
tool post or work piece. Stop
the machine and remove
them with pliers.
24. SAFETY PRECAUTIONS V
•Stop lathe immediately if any
odd noise or vibration develops. If
you cannot locate source of the
trouble, get help from instructor.
Under no circumstance should
the lathe be operated until the
problem has been corrected
•Remove sharp edges and burrs from
work before removing it from the
lathe
25. PROTECT YOURSELF WITH PPE
• Always wear safety glasses
• Always wear closed toe shoes
that protect the top of your foot
• Remove lanyards, roll up
sleeves, remove hoodies,
watches, jewelry, and dangling
jewelry
• Long hair needs to be tied up or
put into a bun
34. Inserting lathe collet into spindle
The collet designation is 5C. Turn
spindle hand wheel by hand until its
keyway is at the 12 o’clock position.
The external keyway and internal
key of the spindle are in the same
orientation
SAFE MACHINE OPERATIONS 2
35. SAFE MACHINE OPERATIONS 3
Select collet size that is going to
be used for your job and line up
its keyway with internal spindle
key, then push collet into spindle
nose
36. SAFE MACHINE OPERATIONS 4
• Push collet closer lever yolk all
the way to the right
• Place right hand over collet
and exert light pressure onto
face of collet and turn shell
guard clockwise to start
threading collet into draw tube
37. SAFE MACHINE OPERATIONS 5
Adjusting collet to workpiece size
Once collet has begun threading into
draw tube, insert workpiece into it
and push collet closer lever yolk to
the left
Continue turning shell guard
clockwise until you feel resistance
which would indicate that collet has
begun to clamp onto your workpiece.
Stop when you feel resistance
38. SAFE MACHINE OPERATIONS 6
Push collet closer lever yolk to the
right and remove workpiece. Add
clamping preload to collet by
releasing adjusting finger that is on
shell guard and turn shell guard
clockwise counting 5 or 6 spaces on
adjusting nut, then re-engage
adjusting finger
Note: Do not operate collet closer
lever yolk with your other hand on
yolk assembly, or risk pinching a
finger
39. Reinsert workpiece into collet and
give collet closer lever yolk a firm
push to the left. Collet closer yolk
should give an audible click that will
indicate that workpiece is clamped.
Note: Engage collet closer yolk
with a stiff arm to reduce risk of
over-exerting your shoulder
SAFE MACHINE OPERATIONS 7
40. SAFE MACHINE OPERATIONS 8
Choosing lathe tool and setting
it on center
• General purpose tool for cutting
steel, stainless steel, and cast
iron
• Tool for cutting aluminum,
wood, titanium, and plastic
Note: Do not run fingers or hand
over cutting edge of tool or risk
getting cut
41. SAFE MACHINE OPERATIONS 9
• Load mounted lathe tool onto
Aloris tool post
• Load workpiece into collet and
lock into collet as specified in
Check workpiece diameter with
a dial caliper on micrometer,
then calculate the radius
42. SAFE MACHINE OPERATIONS 10
• Set dial caliper to the radius
of workpiece
• Using carriage feed and cross
slide feed handles bring the
lathe tool as close as you can
to the face of the part and as
near to the center of the
workpiece as possible without
touching it
43. SAFE MACHINE OPERATIONS 11
• Set dial caliper on top of
workpiece and adjust height of
tool using height adjusting nut
and lock nut. The edge of the
lathe tool should just contact
the bottom of the dial caliper
• Turn the Aloris tool post handle
clockwise to lock mounted tool
in place
44. SAFE MACHINE OPERATIONS 12
Turning lathe on and adjusting
speed
• Main power switch
• Spindle forward and reverse
switch
Note: Make sure that the floor is
dry to eliminate risk of
electrocution
45. SAFE MACHINE OPERATIONS 13
• Low-speed and high-speed
handle
Note: This lever turns the spindle
on. Keep your hands away from
workpiece or near back of head
stock while spindle is running
• Speed control knob
• Emergency stop switch
47. SAFETY PRECAUTIONS VI
Use care when cleaning lathe.
Chips sometimes get caught in
recesses. Remove them with a
brush or short stick. Never use a
floor brush to clean the machine.
Use only a brush or a rag.