The document provides instructions for disassembling and assembling the front axle of a M322D MH wheeled excavator. It lists the required tools and gives step-by-step instructions to remove components such as the carrier housing, planetary gears, retaining rings, seals, and bearings. Instructions are provided to disassemble the carrier gear, piston, discs, seals, and remove the bearing cone. The assembly instructions list the required tools and provide the reverse steps to reinstall components in the proper order.
This document provides disassembly instructions for the final drive carriers, hubs, and brakes of the front and rear axles of a M322D MH wheeled excavator. It lists the required tools and presents step-by-step instructions with accompanying illustrations to remove components such as carrier housings, planetary gears, ring gear housings, pistons, discs, seals, bearings, and flanges. Safety notices are included to properly release pressures and contain fluids.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It details removing over 20 individual components of the axles including carriers, hubs, brakes, gears, seals, bearings and fasteners. Precautions are given for draining fluids and releasing spring pressure. Required specialty tools are listed for tasks like removing retaining rings and pulling bearings.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It details removing components such as carrier housings, planetary gears, brake discs, seals, bearings and hubs. Precautions are given for releasing spring pressure and containing fluids. Tools required are listed. Detailed step-by-step instructions and illustrations are provided to guide the process.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It details 22 steps for disassembling the front axle, removing components like carrier housings, gears, seals, bearings and pistons. It then provides 23 steps for reassembling the front axle in reverse order. A similar level of detail is given for the 23 step disassembly and 22 step assembly of the rear axle. Precautions and required specialty tools are also listed.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It lists the required tools and gives step-by-step instructions to remove components such as carrier housings, planetary gears, brake discs, seals, bearings and hubs. Precautions are provided regarding contained fluids and released spring forces.
The document provides instructions for disassembling and assembling the front and rear axles of a M318D MH wheeled excavator. It details removing components such as carrier housings, planetary gears, brake discs, seals, bearings and hubs. Tools required are listed. Dismantling steps include draining oil, removing retaining rings, bolts and gears. Assembly involves installing bearings, seals, gears and torquing bolts to specifications while applying anti-seize compound in some areas.
The document provides instructions for disassembling and assembling the front and rear axles of a M318D MH wheeled excavator. It details removing components such as carrier housings, planetary gears, bearings, seals, and brake discs. Tools required are listed. Precautions are given for releasing spring forces and containing fluids. The assembly section provides instructions for installing components in reverse order.
The document provides instructions for disassembling and assembling various components of the final drive, carriers, hubs, and brakes on the front and rear axles of a M316D Wheeled Excavator. The disassembly process involves removing 22 components from the front axle and 23 components from the rear axle. The assembly instructions list applying anti-seize compound and installing bearings, seals, gears, carriers, and other parts in the reverse order of disassembly. Tools including retaining ring pliers, drivers, spanners, and pullers are required. Safety notices remind technicians to contain fluids and release spring forces carefully.
This document provides disassembly instructions for the final drive carriers, hubs, and brakes of the front and rear axles of a M322D MH wheeled excavator. It lists the required tools and presents step-by-step instructions with accompanying illustrations to remove components such as carrier housings, planetary gears, ring gear housings, pistons, discs, seals, bearings, and flanges. Safety notices are included to properly release pressures and contain fluids.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It details removing over 20 individual components of the axles including carriers, hubs, brakes, gears, seals, bearings and fasteners. Precautions are given for draining fluids and releasing spring pressure. Required specialty tools are listed for tasks like removing retaining rings and pulling bearings.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It details removing components such as carrier housings, planetary gears, brake discs, seals, bearings and hubs. Precautions are given for releasing spring pressure and containing fluids. Tools required are listed. Detailed step-by-step instructions and illustrations are provided to guide the process.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It details 22 steps for disassembling the front axle, removing components like carrier housings, gears, seals, bearings and pistons. It then provides 23 steps for reassembling the front axle in reverse order. A similar level of detail is given for the 23 step disassembly and 22 step assembly of the rear axle. Precautions and required specialty tools are also listed.
This document provides instructions for disassembling and assembling the front and rear axles of a M322D MH wheeled excavator. It lists the required tools and gives step-by-step instructions to remove components such as carrier housings, planetary gears, brake discs, seals, bearings and hubs. Precautions are provided regarding contained fluids and released spring forces.
The document provides instructions for disassembling and assembling the front and rear axles of a M318D MH wheeled excavator. It details removing components such as carrier housings, planetary gears, brake discs, seals, bearings and hubs. Tools required are listed. Dismantling steps include draining oil, removing retaining rings, bolts and gears. Assembly involves installing bearings, seals, gears and torquing bolts to specifications while applying anti-seize compound in some areas.
The document provides instructions for disassembling and assembling the front and rear axles of a M318D MH wheeled excavator. It details removing components such as carrier housings, planetary gears, bearings, seals, and brake discs. Tools required are listed. Precautions are given for releasing spring forces and containing fluids. The assembly section provides instructions for installing components in reverse order.
The document provides instructions for disassembling and assembling various components of the final drive, carriers, hubs, and brakes on the front and rear axles of a M316D Wheeled Excavator. The disassembly process involves removing 22 components from the front axle and 23 components from the rear axle. The assembly instructions list applying anti-seize compound and installing bearings, seals, gears, carriers, and other parts in the reverse order of disassembly. Tools including retaining ring pliers, drivers, spanners, and pullers are required. Safety notices remind technicians to contain fluids and release spring forces carefully.
KOBELCO 70SR-2 Acera Hydraulic Excavator Service Repair Manual.pdfufuejkdkmdm
The document is a service manual that provides instructions for disassembling a pilot valve used in a Kobelco Construction Machinery hydraulic excavator model 70SR-2 Acera. It includes diagrams of the valve components and specifies tightening torques. The disassembly instructions describe removing external components like boots and nuts, then internal parts like springs, spools and seals while taking safety precautions for any stored energy in the valve springs.
KOBELCO 140SRLC-3 HYDRAULIC EXCAVATOR Service Repair Manual.pdfufuejkdkmdm
This document is a service manual that provides instructions for maintenance, repair, and troubleshooting of a Kobelco 140SRLC-3 hydraulic excavator. It contains 7 sections: Specifications, Maintenance, Systems, Disassembly, Troubleshooting, Engine, and Optional Attachment Installation Procedures. The Outline section emphasizes safety precautions and preparation needed before disassembling the excavator. Technicians are instructed to clean the machine, inspect issues, record details, and arrange the work area with the necessary tools and parts storage. Proper protective equipment and lifting equipment should be used, and the machine should always be properly supported.
KOBELCO 17SR-Tier 4 Hydraulic Excavator Service Repair Manual.pdfufuejkdkmdm
This document provides guidelines and safety precautions for repairing hydraulic excavators. It covers preparing for disassembly, safety during disassembly and assembly, working with hydraulic equipment and electrical components, handling hydraulic parts, welding repairs, and an international unit conversion system. Technicians are instructed to thoroughly read manuals, use proper tools, relieve pressures, and take caution with hot or heavy components. Protective equipment is recommended.
This document provides disassembly instructions for the front and rear axles, carriers, hubs, and brakes of an M322C wheeled excavator. The front axle disassembly begins by draining oil, removing the tire and rim, and releasing hydraulic pressure. It then details removing over 40 individual components including carriers, planetary gears, washers, retainers, seals and bearings. The rear axle disassembly also provides over 25 steps to remove components like brake drums, housings, gears, couplings, axles, seals, bearings, brake assemblies and the spindle. Required tools are listed and each step includes an illustration for reference.
This document provides instructions for disassembling and assembling the swing drive of an M322C wheeled excavator. The removal procedure involves releasing hydraulic pressure, removing hoses and bolts, and lifting out the swing drive unit. Disassembly of the swing drive further requires removing retaining rings, plates, discs, seals, gears, and bearings. Reassembly follows the reverse order, applying lubricant and ensuring proper torque specifications are followed for nuts and bolts. Cleanliness and use of the correct tools are emphasized throughout.
This document provides instructions for disassembling and assembling the swing drive of an M322C wheeled excavator. It begins with 28 steps to disassemble the swing drive components. This includes removing retaining rings, springs, discs, plates, seals, bearings, and gears. It then provides 29 steps to reassemble the swing drive, installing the components in reverse order and noting that all seals and gaskets must be replaced. Precise torques and procedures are specified for installing bearings and tightening nuts to properly set bearing preload. Cleanliness is stressed and lubrication of parts is required during assembly.
This document provides instructions for disassembling and assembling the swing drive of an M318C wheeled excavator. The removal procedure involves releasing hydraulic pressure, removing hoses and bolts, and lifting out the swing drive unit. Disassembly of the swing drive further requires removing retaining rings, plates, discs, seals, gears, and bearings. Reassembly follows the reverse order, applying lubricant to components and ensuring proper torque specifications are achieved. Tools and safety precautions are also outlined.
This document provides instructions for disassembling and assembling the swing drive of an M318D MH wheeled excavator. The disassembly procedure involves using various tools to remove 28 individual parts from the swing drive assembly, including pins, gears, bearings, seals, and housing components. The assembly procedure similarly uses tools to install the parts in reverse order and includes steps to properly set bearing preloads. Precautions are listed regarding cleaning parts and applying lubricant before assembly.
This document provides instructions for disassembling and assembling the rear axle of a M316C Wheeled Excavator. The disassembly procedure involves removing 23 components of the rear axle including the carrier housing, planetary gears, retaining rings, and hub. The assembly procedure describes installing these 23 components in reverse order and includes steps to measure clearances and install seals, bearings, and thrust washers correctly. Tools required are also listed.
The document provides instructions for disassembling and assembling the final drive carriers, hubs, and brakes of the rear axle of a M315D2 Wheeled Excavator. It lists the required tools and presents 23 steps for disassembly that include removing bolts, housings, gears, seals, and bearings. It then lists 27 steps for assembly that involve cleaning, lubricating, heating/cooling parts, and reinstalling components in reverse order while applying torque to specified values. Measurements are also taken to ensure proper brake clearance during assembly.
This document provides instructions for disassembling and assembling the swing drive of an excavator model M318C MH. It lists required tools and presents step-by-step procedures with illustrations. The disassembly process involves removing over 20 individual parts including plates, discs, pistons, seals, gears, and bearings. The assembly procedure lists the parts and provides instructions for installing components like bearings, seals, and gears in the proper order and orientation. Precautions are outlined regarding spring forces, bearing temperatures, lubrication, and torque specifications.
This document provides instructions for disassembling and assembling the swing drive of an M316C wheeled excavator. The disassembly procedure involves using various tools to remove 28 individual parts from the swing drive housing. The assembly procedure similarly uses tools to install the parts in reverse order, noting that bearings and seals must be heated or cooled as needed and lubricated before installation. Precise torques are specified for tightening critical nuts to properly set bearing preloads.
The document provides instructions for disassembling and assembling the main hydraulic pump of a M313D Wheeled Excavator. It lists 34 steps for disassembly, removing components like bolts, seals, springs, and bearings. For assembly, it lists 36 steps such as installing bearings, seals, rods, and calibrating components using tools and measurements to ensure proper lift-off limitation. Precise assembly is important to prevent contamination and ensure long component life.
The document provides instructions for disassembling and assembling the front axle of a M313D wheeled excavator. It lists required tools and gives step-by-step instructions to remove components such as the carrier housing, planetary gears, ring gear housing, brake discs, bearings and seals. Similarly, it provides detailed steps for reassembling these components in reverse order and notes precautions to take regarding pressurized fluids and spring forces. The overall document provides a technical service manual section on disassembling and assembling the front axle transmission.
The document provides instructions for disassembling a piston pump used in a wheeled excavator. It lists 49 steps to fully disassemble the pump and its components. These include removing bolts, hoses, gears, plates, valves, springs, pistons, seals, and other internal parts. Detailed illustrations accompany each step to show how to access and remove the individual parts in the correct order. Safety notices are included to warn of potential hazards like stored energy in springs.
This document provides instructions for disassembling and assembling the recoil spring on a 329D L excavator. It describes:
1. The required tools and sockets for disassembly and assembly.
2. The disassembly procedure which involves using a special recoil spring bench tool to safely compress the spring and remove components.
3. The assembly procedure which again uses the bench tool to compress the spring and measure its length during assembly. Proper spring length is critical.
This document provides assembly instructions for a hydraulic pump in 3 steps:
1. It describes 60 assembly steps to install components like seals, springs, pistons, and covers inside the pump housing.
2. It explains how to install the pump control assembly, adding more components like valves, links, and seals.
3. Finally, it specifies installing the completed pump control onto the pump housing and connecting fittings to finish assembly.
This document provides the installation procedure for a final drive on an excavator. It lists the required tools and parts. The procedure involves using lifting devices to position the final drive, applying anti-seize compound to bolts, and torquing the bolts to the specified values. The final drive is then removed from the lifting tools and the travel motor and track assembly are installed.
Caterpillar Cat 303.5E2CR Mini Hydraulic Excavator (Prefix DWD) Service Repai...ufuejkdkmdm
This service repair manual provides instructions for removing and installing inlet and exhaust valves, valve springs, valve guides, and valve seat inserts on a Caterpillar 303.5E2CR Mini Hydraulic Excavator. The document describes the required tools and provides step-by-step procedures that involve using a valve spring compressor to remove valves and springs safely while ensuring the piston is at top dead center. Technicians must clean and inspect all cylinder head components and replace any worn or damaged parts during reassembly.
1. This document provides assembly instructions for a 329DL excavator service repair manual, outlining 60 steps to assemble the main hydraulic pump.
2. The steps include installing various components like gaskets, bearings, seals, pistons, barrels, covers, and plates onto the pump housing in a specific order and orientation.
3. Tools and components like retaining rings, bolts, pins, springs, and covers are also installed onto the pump control and head assembly following illustrated diagrams.
Understanding Catalytic Converter Theft:
What is a Catalytic Converter?: Learn about the function of catalytic converters in vehicles and why they are targeted by thieves.
Why are They Stolen?: Discover the valuable metals inside catalytic converters (such as platinum, palladium, and rhodium) that make them attractive to criminals.
Steps to Prevent Catalytic Converter Theft:
Parking Strategies: Tips on where and how to park your vehicle to reduce the risk of theft, such as parking in well-lit areas or secure garages.
Protective Devices: Overview of various anti-theft devices available, including catalytic converter locks, shields, and alarms.
Etching and Marking: The benefits of etching your vehicle’s VIN on the catalytic converter or using a catalytic converter marking kit to make it traceable and less appealing to thieves.
Surveillance and Monitoring: Recommendations for using security cameras and motion-sensor lights to deter thieves.
Statistics and Insights:
Theft Rates by Borough: Analysis of data to determine which borough in NYC experiences the highest rate of catalytic converter thefts.
Recent Trends: Current trends and patterns in catalytic converter thefts to help you stay aware of emerging hotspots and tactics used by thieves.
Benefits of This Presentation:
Awareness: Increase your awareness about catalytic converter theft and its impact on vehicle owners.
Practical Tips: Gain actionable insights and tips to effectively prevent catalytic converter theft.
Local Insights: Understand the specific risks in different NYC boroughs, helping you take targeted preventive measures.
This presentation aims to equip you with the knowledge and tools needed to protect your vehicle from catalytic converter theft, ensuring you are prepared and proactive in safeguarding your property.
KOBELCO 70SR-2 Acera Hydraulic Excavator Service Repair Manual.pdfufuejkdkmdm
The document is a service manual that provides instructions for disassembling a pilot valve used in a Kobelco Construction Machinery hydraulic excavator model 70SR-2 Acera. It includes diagrams of the valve components and specifies tightening torques. The disassembly instructions describe removing external components like boots and nuts, then internal parts like springs, spools and seals while taking safety precautions for any stored energy in the valve springs.
KOBELCO 140SRLC-3 HYDRAULIC EXCAVATOR Service Repair Manual.pdfufuejkdkmdm
This document is a service manual that provides instructions for maintenance, repair, and troubleshooting of a Kobelco 140SRLC-3 hydraulic excavator. It contains 7 sections: Specifications, Maintenance, Systems, Disassembly, Troubleshooting, Engine, and Optional Attachment Installation Procedures. The Outline section emphasizes safety precautions and preparation needed before disassembling the excavator. Technicians are instructed to clean the machine, inspect issues, record details, and arrange the work area with the necessary tools and parts storage. Proper protective equipment and lifting equipment should be used, and the machine should always be properly supported.
KOBELCO 17SR-Tier 4 Hydraulic Excavator Service Repair Manual.pdfufuejkdkmdm
This document provides guidelines and safety precautions for repairing hydraulic excavators. It covers preparing for disassembly, safety during disassembly and assembly, working with hydraulic equipment and electrical components, handling hydraulic parts, welding repairs, and an international unit conversion system. Technicians are instructed to thoroughly read manuals, use proper tools, relieve pressures, and take caution with hot or heavy components. Protective equipment is recommended.
This document provides disassembly instructions for the front and rear axles, carriers, hubs, and brakes of an M322C wheeled excavator. The front axle disassembly begins by draining oil, removing the tire and rim, and releasing hydraulic pressure. It then details removing over 40 individual components including carriers, planetary gears, washers, retainers, seals and bearings. The rear axle disassembly also provides over 25 steps to remove components like brake drums, housings, gears, couplings, axles, seals, bearings, brake assemblies and the spindle. Required tools are listed and each step includes an illustration for reference.
This document provides instructions for disassembling and assembling the swing drive of an M322C wheeled excavator. The removal procedure involves releasing hydraulic pressure, removing hoses and bolts, and lifting out the swing drive unit. Disassembly of the swing drive further requires removing retaining rings, plates, discs, seals, gears, and bearings. Reassembly follows the reverse order, applying lubricant and ensuring proper torque specifications are followed for nuts and bolts. Cleanliness and use of the correct tools are emphasized throughout.
This document provides instructions for disassembling and assembling the swing drive of an M322C wheeled excavator. It begins with 28 steps to disassemble the swing drive components. This includes removing retaining rings, springs, discs, plates, seals, bearings, and gears. It then provides 29 steps to reassemble the swing drive, installing the components in reverse order and noting that all seals and gaskets must be replaced. Precise torques and procedures are specified for installing bearings and tightening nuts to properly set bearing preload. Cleanliness is stressed and lubrication of parts is required during assembly.
This document provides instructions for disassembling and assembling the swing drive of an M318C wheeled excavator. The removal procedure involves releasing hydraulic pressure, removing hoses and bolts, and lifting out the swing drive unit. Disassembly of the swing drive further requires removing retaining rings, plates, discs, seals, gears, and bearings. Reassembly follows the reverse order, applying lubricant to components and ensuring proper torque specifications are achieved. Tools and safety precautions are also outlined.
This document provides instructions for disassembling and assembling the swing drive of an M318D MH wheeled excavator. The disassembly procedure involves using various tools to remove 28 individual parts from the swing drive assembly, including pins, gears, bearings, seals, and housing components. The assembly procedure similarly uses tools to install the parts in reverse order and includes steps to properly set bearing preloads. Precautions are listed regarding cleaning parts and applying lubricant before assembly.
This document provides instructions for disassembling and assembling the rear axle of a M316C Wheeled Excavator. The disassembly procedure involves removing 23 components of the rear axle including the carrier housing, planetary gears, retaining rings, and hub. The assembly procedure describes installing these 23 components in reverse order and includes steps to measure clearances and install seals, bearings, and thrust washers correctly. Tools required are also listed.
The document provides instructions for disassembling and assembling the final drive carriers, hubs, and brakes of the rear axle of a M315D2 Wheeled Excavator. It lists the required tools and presents 23 steps for disassembly that include removing bolts, housings, gears, seals, and bearings. It then lists 27 steps for assembly that involve cleaning, lubricating, heating/cooling parts, and reinstalling components in reverse order while applying torque to specified values. Measurements are also taken to ensure proper brake clearance during assembly.
This document provides instructions for disassembling and assembling the swing drive of an excavator model M318C MH. It lists required tools and presents step-by-step procedures with illustrations. The disassembly process involves removing over 20 individual parts including plates, discs, pistons, seals, gears, and bearings. The assembly procedure lists the parts and provides instructions for installing components like bearings, seals, and gears in the proper order and orientation. Precautions are outlined regarding spring forces, bearing temperatures, lubrication, and torque specifications.
This document provides instructions for disassembling and assembling the swing drive of an M316C wheeled excavator. The disassembly procedure involves using various tools to remove 28 individual parts from the swing drive housing. The assembly procedure similarly uses tools to install the parts in reverse order, noting that bearings and seals must be heated or cooled as needed and lubricated before installation. Precise torques are specified for tightening critical nuts to properly set bearing preloads.
The document provides instructions for disassembling and assembling the main hydraulic pump of a M313D Wheeled Excavator. It lists 34 steps for disassembly, removing components like bolts, seals, springs, and bearings. For assembly, it lists 36 steps such as installing bearings, seals, rods, and calibrating components using tools and measurements to ensure proper lift-off limitation. Precise assembly is important to prevent contamination and ensure long component life.
The document provides instructions for disassembling and assembling the front axle of a M313D wheeled excavator. It lists required tools and gives step-by-step instructions to remove components such as the carrier housing, planetary gears, ring gear housing, brake discs, bearings and seals. Similarly, it provides detailed steps for reassembling these components in reverse order and notes precautions to take regarding pressurized fluids and spring forces. The overall document provides a technical service manual section on disassembling and assembling the front axle transmission.
The document provides instructions for disassembling a piston pump used in a wheeled excavator. It lists 49 steps to fully disassemble the pump and its components. These include removing bolts, hoses, gears, plates, valves, springs, pistons, seals, and other internal parts. Detailed illustrations accompany each step to show how to access and remove the individual parts in the correct order. Safety notices are included to warn of potential hazards like stored energy in springs.
This document provides instructions for disassembling and assembling the recoil spring on a 329D L excavator. It describes:
1. The required tools and sockets for disassembly and assembly.
2. The disassembly procedure which involves using a special recoil spring bench tool to safely compress the spring and remove components.
3. The assembly procedure which again uses the bench tool to compress the spring and measure its length during assembly. Proper spring length is critical.
This document provides assembly instructions for a hydraulic pump in 3 steps:
1. It describes 60 assembly steps to install components like seals, springs, pistons, and covers inside the pump housing.
2. It explains how to install the pump control assembly, adding more components like valves, links, and seals.
3. Finally, it specifies installing the completed pump control onto the pump housing and connecting fittings to finish assembly.
This document provides the installation procedure for a final drive on an excavator. It lists the required tools and parts. The procedure involves using lifting devices to position the final drive, applying anti-seize compound to bolts, and torquing the bolts to the specified values. The final drive is then removed from the lifting tools and the travel motor and track assembly are installed.
Caterpillar Cat 303.5E2CR Mini Hydraulic Excavator (Prefix DWD) Service Repai...ufuejkdkmdm
This service repair manual provides instructions for removing and installing inlet and exhaust valves, valve springs, valve guides, and valve seat inserts on a Caterpillar 303.5E2CR Mini Hydraulic Excavator. The document describes the required tools and provides step-by-step procedures that involve using a valve spring compressor to remove valves and springs safely while ensuring the piston is at top dead center. Technicians must clean and inspect all cylinder head components and replace any worn or damaged parts during reassembly.
1. This document provides assembly instructions for a 329DL excavator service repair manual, outlining 60 steps to assemble the main hydraulic pump.
2. The steps include installing various components like gaskets, bearings, seals, pistons, barrels, covers, and plates onto the pump housing in a specific order and orientation.
3. Tools and components like retaining rings, bolts, pins, springs, and covers are also installed onto the pump control and head assembly following illustrated diagrams.
Understanding Catalytic Converter Theft:
What is a Catalytic Converter?: Learn about the function of catalytic converters in vehicles and why they are targeted by thieves.
Why are They Stolen?: Discover the valuable metals inside catalytic converters (such as platinum, palladium, and rhodium) that make them attractive to criminals.
Steps to Prevent Catalytic Converter Theft:
Parking Strategies: Tips on where and how to park your vehicle to reduce the risk of theft, such as parking in well-lit areas or secure garages.
Protective Devices: Overview of various anti-theft devices available, including catalytic converter locks, shields, and alarms.
Etching and Marking: The benefits of etching your vehicle’s VIN on the catalytic converter or using a catalytic converter marking kit to make it traceable and less appealing to thieves.
Surveillance and Monitoring: Recommendations for using security cameras and motion-sensor lights to deter thieves.
Statistics and Insights:
Theft Rates by Borough: Analysis of data to determine which borough in NYC experiences the highest rate of catalytic converter thefts.
Recent Trends: Current trends and patterns in catalytic converter thefts to help you stay aware of emerging hotspots and tactics used by thieves.
Benefits of This Presentation:
Awareness: Increase your awareness about catalytic converter theft and its impact on vehicle owners.
Practical Tips: Gain actionable insights and tips to effectively prevent catalytic converter theft.
Local Insights: Understand the specific risks in different NYC boroughs, helping you take targeted preventive measures.
This presentation aims to equip you with the knowledge and tools needed to protect your vehicle from catalytic converter theft, ensuring you are prepared and proactive in safeguarding your property.
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!
Ever been troubled by the blinking sign and didn’t know what to do?
Here’s a handy guide to dashboard symbols so that you’ll never be confused again!
Save them for later and save the trouble!
EV Charging at MFH Properties by Whitaker JamiesonForth
Whitaker Jamieson, Senior Specialist at Forth, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
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 Could Be Behind Your Mercedes Sprinter's Power Loss on Uphill RoadsSprinter Gurus
Unlock the secrets behind your Mercedes Sprinter's uphill power loss with our comprehensive presentation. From fuel filter blockages to turbocharger troubles, we uncover the culprits and empower you to reclaim your vehicle's peak performance. Conquer every ascent with confidence and ensure a thrilling journey every time.
Expanding Access to Affordable At-Home EV Charging by Vanessa WarheitForth
Vanessa Warheit, Co-Founder of EV Charging for All, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
2. Shutdown SIS
Previous Screen
Product: WHEELED EXCAVATOR
Model: M322D MH WHEELED EXCAVATOR P3W
Configuration: M322D MH Wheeled Excavator P3W00001-UP (MACHINE) POWERED BY C6.6 Engine
Disassembly and Assembly
M316D, M318D and M322D Wheeled Excavators Power Train
Media Number -UENR0121-04 Publication Date -01/03/2018 Date Updated -16/03/2018
i02371736
Final Drive Carriers, Hubs and Brakes - Disassemble - Front
Axle
SMCS - 4054-015; 4092-015; 4253-015; 4255-015
Disassembly Procedure
Table 1
Required Tools
Tool Part Number Part Description Qty
A 1P-1863 Retaining Ring Pliers 1
B
6V-9508 Face Seal Plug 1
6V-9829 Cap As 1
1P-0510 Driver Gp 2
5F-7345 Screw 1
C 267-6564 Spanner 1
D 1U-5832 Pry Bar 1
E 1U-6410 Three Jaw Puller 1
F 1P-0510 Driver Gp 1
G 5P-4197 Spacer 1
H 1A-1935 Full Nut 1
3H-0465 Push-Puller Plate 4
5F-7342 Adapter 2
5F-7343 Bearing Puller Gp 1
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3. 5F-7366 Forcing Screw 1
5P-8248 Hard Washer 2
6B-6684 Full Nut 2
6V-8237 Washer 1
8B-7549 Puller Leg 2
9S-7338 Crossblock 1
Start By:
a. Remove the front tires and rims. Refer to Disassembly and Assembly, "Tire and Rim -
Remove".
b. Release the hydraulic system pressure. Refer to Disassembly and Assembly, "Hydraulic
System Pressure - Release".
NOTICE
Care must be taken to ensure that fluids are contained during
performance of inspection, maintenance, testing, adjusting, and repair
of the product. Be prepared to collect the fluid with suitable containers
before opening any compartment or disassembling any component
containing fluids.
Refer to Special Publication, NENG2500, "Dealer Service Tool
Catalog" for tools and supplies suitable to collect and contain fluids on
Cat products.
Dispose of all fluids according to local regulations and mandates.
1. Drain the oil from the front final drives into a suitable container.
Illustration 1 g00894123
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4. 2. Attach a suitable lifting device to carrier housing (2).
3. Remove bolts (1).
4. Remove carrier housing (2). The weight of carrier housing (2) is approximately 31 kg
(68 lb).
Illustration 2 g00894124
5. Disconnect hose assembly (3).
Illustration 3 g01136274
6. Use Tooling (A) in order to remove retaining rings (4).
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5. Illustration 4 g01136278
7. Use Tooling (B) in order to remove planetary gears (5) from carrier housing (2).
8. Remove thrust washer (6).
Illustration 5 g01136281
9. Remove retaining ring (7), washer (8), and roller bearing (9).
Illustration 6 g01136284
10. Use Tooling (A) in order to remove retaining ring (10). Remove thrust washers (11) and
(12).
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6. Illustration 7 g01183274
Illustration 8 g01183275
11. Remove bolt (13). Use Tooling (C) in order to remove nut (14).
Illustration 9 g01136294
12. Remove O-ring seal (15). Remove ring gear housing (16).
Illustration 10 g01136296
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7. Personal injury can result from being struck by parts propelled by a
released spring force.
Make sure to wear all necessary protective equipment.
Follow the recommended procedure and use all recommended tooling to
release the spring force.
13. Remove bolts (17), the springs, and the retainers. Remove piston (18).
Illustration 11 g01136302
14. Remove O-ring seal (19), ring (20), O-ring seal (21), and ring (22).
Illustration 12 g01136306
15. Remove clutch discs (23).
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8. Illustration 13 g01136310
16. Remove O-ring seal (24). Use Tooling (D) in order to remove carrier gear (25).
Illustration 14 g01136323
17. Remove O-ring seal (26).
Illustration 15 g01136328
18. Use a suitable lifting device, Tooling (E), Tooling (F), and Tooling (G) in order to remove
bearing cone (27) and flange (28).
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9. Illustration 16 g01136332
19. Attach a suitable lifting device to flange (28) and remove flange (28). The weight of flange
(28) is approximately 38 kg (83 lb).
Illustration 17 g01136334
20. Remove seal (29). Remove bearing cups (30).
Illustration 18 g01136337
21. Remove spacer (31).
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10. Illustration 19 g01136345
22. Use Tooling (F), Tooling (G), and Tooling (H) in order to remove bearing cone (32).
Copyright 1993 - 2020 Caterpillar Inc.
All Rights Reserved.
Private Network For SIS Licensees.
Sun Mar 22 19:11:43 UTC+0800 2020
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11. Shutdown SIS
Previous Screen
Product: WHEELED EXCAVATOR
Model: M322D MH WHEELED EXCAVATOR P3W
Configuration: M322D MH Wheeled Excavator P3W00001-UP (MACHINE) POWERED BY C6.6 Engine
Disassembly and Assembly
M316D, M318D and M322D Wheeled Excavators Power Train
Media Number -UENR0121-04 Publication Date -01/03/2018 Date Updated -16/03/2018
i02374051
Final Drive Carriers, Hubs and Brakes - Disassemble - Rear
Axle
SMCS - 4054-015; 4092-015; 4253-015; 4255-015
Disassembly Procedure
Table 1
Required Tools
Tool Part Number Part Description Qty
A 1P-1863 Retaining Ring Pliers 1
B
1P-0510 Driver Gp 2
5F-7345 Screw 1
C 267-6564 Spanner 1
D 1U-5832 Pry Bar 1
E 1U-6410 Three Jaw Puller 1
F 1P-0510 Driver Gp 1
G 1A-1935 Full Nut 1
3H-0465 Push-Puller Plate 4
5F-7342 Adapter 2
5F-7343 Bearing Puller Gp 1
5F-7366 Forcing Screw 1
5P-8248 Hard Washer 2
6B-6684 Full Nut 2
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12. 6V-8237 Washer 1
8B-7549 Puller Leg 2
9S-7338 Crossblock 1
Start By:
a. Remove the rear tires and rims. Refer to Disassembly and Assembly, "Tire and Rim -
Remove".
b. Release the hydraulic system pressure. Refer to Disassembly and Assembly, "Hydraulic
System Pressure - Release".
NOTICE
Care must be taken to ensure that fluids are contained during
performance of inspection, maintenance, testing, adjusting, and repair
of the product. Be prepared to collect the fluid with suitable containers
before opening any compartment or disassembling any component
containing fluids.
Refer to Special Publication, NENG2500, "Dealer Service Tool
Catalog" for tools and supplies suitable to collect and contain fluids on
Cat products.
Dispose of all fluids according to local regulations and mandates.
1. Drain the oil from the front final drives into a suitable container.
Illustration 1 g01178408
2. Attach a suitable lifting device to carrier housing (2).
3. Remove bolts (3).
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13. 4. Remove carrier housing (2). The weight of carrier housing (2) is approximately 31 kg
(68 lb).
5. Disconnect hose assembly (1).
Illustration 2 g01136274
6. Use Tooling (A) in order to remove retaining rings (4).
Illustration 3 g01136278
7. Use Tooling (B) in order to remove planetary gears (5) from carrier housing (2).
8. Remove thrust washer (6).
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14. Illustration 4 g01136281
9. Remove retaining ring (7), washer (8), and roller bearing (9).
Illustration 5 g01178409
Illustration 6 g01178410
10. Remove bolt (10). Use Tooling (C) in order to remove nut (11).
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15. Illustration 7 g01178411
11. Remove O-ring seal (12). Remove stub shaft (13).
Illustration 8 g01178413
Note: Note the location of the alignment marks on ring gear housing (14) and the hub for
assembly purposes.
12. Use Tooling (D) to remove ring gear housing (14).
Illustration 9 g01178412
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16. Personal injury can result from being struck by parts propelled by a
released spring force.
Make sure to wear all necessary protective equipment.
Follow the recommended procedure and use all recommended tooling to
release the spring force.
13. Remove the bolts, the springs, and retainers (15). Remove piston (16).
Illustration 10 g01178414
14. Remove O-ring seal (17), ring (18), O-ring seal (19), and ring (20).
Illustration 11 g01178415
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17. 15. Remove brake discs (21).
Illustration 12 g01178416
16. Remove O-ring seal (23). Use Tooling (D) in order to remove carrier gear (22).
Illustration 13 g01178429
17. Remove O-ring seal (24).
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18. Illustration 14 g01178417
18. Use a suitable lifting device, Tooling (E), and Tooling (F) in order to remove bearing cone
(25).
19. Use two people in order to remove flange (26). The weight of flange (26) is approximately
38 kg (83 lb).
Illustration 15 g01178430
20. Remove lip seal (27). Remove bearing cups (28).
Illustration 16 g01178418
21. Remove spacer (29).
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19. Illustration 17 g01178431
22. Use Tooling (F) and Tooling (G) in order to remove bearing cone (30).
Illustration 18 g01178432
23. Attach a suitable lifting device to hub (31). The weight of hub (31) is approximately 29 kg
(65 lb). Remove bolts (32) and hub (31).
Copyright 1993 - 2020 Caterpillar Inc.
All Rights Reserved.
Private Network For SIS Licensees.
Sun Mar 22 19:12:38 UTC+0800 2020
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20. Shutdown SIS
Previous Screen
Product: WHEELED EXCAVATOR
Model: M322D MH WHEELED EXCAVATOR P3W
Configuration: M322D MH Wheeled Excavator P3W00001-UP (MACHINE) POWERED BY C6.6 Engine
Disassembly and Assembly
M316D, M318D and M322D Wheeled Excavators Power Train
Media Number -UENR0121-04 Publication Date -01/03/2018 Date Updated -16/03/2018
i04893425
Final Drive Carriers, Hubs and Brakes - Assemble - Front
Axle
SMCS - 4054-016; 4092-016; 4253-016; 4255-016
Assembly Procedure
Table 1
Required Tools
Tool Part Number Part Description Qty
A 1P-1863 Retaining Ring Pliers 1
C 267-6564 Spanner 1
J 4C-5593 Anti-Seize Compound 1
K 6V-6080 Torque Multiplier Gp 1
L 269-7627 Seal Installer 1
NOTICE
Care must be taken to ensure that fluids are contained during
performance of inspection, maintenance, testing, adjusting, and repair
of the product. Be prepared to collect the fluid with suitable containers
before opening any compartment or disassembling any component
containing fluids.
Refer to Special Publication, NENG2500, "Dealer Service Tool
Catalog" for tools and supplies suitable to collect and contain fluids on
Cat products.
Dispose of all fluids according to local regulations and mandates.
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21. Illustration 1 g01136417
1. Raise the temperature of bearing cone (32) and install bearing cone (32) .
Illustration 2 g01136418
2. Lower the temperature of bearing cups (30) and install bearing cups (30) .
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22. Illustration 3 g01136425
3. Use Tooling (L) and a suitable press in order to install seal (29) .
Illustration 4 g01136427
4. Attach a suitable lifting device to flange (28) and install flange (28). The weight of flange
(28) is approximately 38 kg (83 lb). Raise the temperature of bearing cone (27) and install
bearing cone (27) .
Illustration 5 g01136302
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23. 5. Install O-ring seal (19), ring (20), O-ring seal (21), and ring (22) .
Illustration 6 g01136296
Personal injury can result from being struck by parts propelled by a
released spring force.
Make sure to wear all necessary protective equipment.
Follow the recommended procedure and use all recommended tooling to
release the spring force.
6. Position piston (18). Install bolts (17), the springs, and the retainers. Tighten bolts (17) to a
torque of 11 N·m (8 lb ft).
Illustration 7 g01136430
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24. 7. Install ring gear housing (16) .
Illustration 8 g01136432
8. Apply Tooling (J) to nut (14) and install nut (14). Use Tooling (C) and Tooling (K) in order
to tighten nut (14). Tighten nut (14) to a torque of 1400 ± 600 N·m (1033 ± 443 lb ft).
9. Rotate flange (28) in both directions several times in order to seat the bearings. Remove nut
(14) and remove ring gear housing (16) .
Illustration 9 g01136323
10. Install O-ring seal (26) .
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25. Thank you very much for
your reading. Please Click
Here. Then Get COMPLETE
MANUAL. NO WAITING
NOTE:
If there is no response to
click on the link above,
please download the PDF
document first and then
click on it.
26. Illustration 10 g01136428
11. Install carrier gear (25) and O-ring seal (24) .
Illustration 11 g01136448
12. Install clutch discs (23). Alternate the friction discs and the drive plates during installation.
Illustration 12 g01136430
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27. Illustration 13 g01136294
13. Install ring gear housing (16). Install O-ring seal (15) onto ring gear housing (16) .
Illustration 14 g01136432
14. Apply Tooling (J) to nut (14) and install nut (14). Use Tooling (C) and Tooling (K) in order
to tighten nut (14). Tighten nut (14) to a torque of 1400 ± 200 N·m (1032 ± 147 lb ft).
Illustration 15 g01136691
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28. Illustration 16 g01136698
Illustration 17 g01136707
15. Apply 9997 kPa (1450 psi) of pressure to the brakes. Measure the distance from the surface
of ring gear housing (16) to the surface of piston (18). Record the dimension as Dimension
(A) .
16. Release the pressure from the brakes. Measure the distance from the surface of ring gear
housing (16) to the surface of piston (18). Record the dimension as Dimension (B). Subtract
Dimension (B) from Dimension (A) in order to determine Clearance (X) for the discs.
Clearance (X) for the discs should measure 1.2 mm (0.05 inch) to 1.8 mm (0.07 inch). Use
different discs until this clearance is reached.
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