When selecting lifting equipment for a specific rigging operation, there are several key factors to consider. First and foremost, the weight and dimensions of the load must be taken into account to ensure that the equipment has the necessary capacity to safely lift and transport it. Additionally, the environment in which the operation will take place should be considered, including factors such as temperature, humidity, and the presence of any hazardous materials. The type of equipment needed will also depend on the specific rigging technique being used, such as wire rope slings, chain slings, or synthetic slings. Finally, it is important to consider the experience and training of the personnel who will be operating the equipment, as well as any specific regulations or standards that may apply to the operation.
The load capacity of a lifting device can be determined by consulting the manufacturer's specifications and guidelines. These will typically provide information on the maximum weight that the device can safely lift, as well as any limitations or restrictions that may apply. It is important to ensure that the load capacity of the device is not exceeded, as this can lead to equipment failure and potentially dangerous situations. To avoid overloading, it is recommended to use a load indicator or load cell to monitor the weight being lifted in real-time. Additionally, it is crucial to properly calculate the weight of the load, taking into account any additional factors such as the weight of the rigging equipment itself. Regular inspections and maintenance of the lifting device are also essential to ensure its continued safe operation.
We heard your feedback and HGR is here to make storing your equipment much easier our new and improved storage policy update. HGR is proud to announce that our new storage policy update is here to make it more cost efficient for our customers. Starting this month, HGR will bill out storage fees on... Read More... The post We Heard You! Check Out Our Improved Storage Policy appeared first on HGR Inc..
Posted by on 2023-02-02
Giving back to the community has been a major staple of HGR’s identity since we first opened for business in 1998. This year was no different as employees from the Euclid facility gathered for their annual holiday celebration. This year HGR managed to collect and donate over 473lbs of non-perishable food items to the Euclid Hunger... Read More... The post HGR Gives Back During The Holidays! appeared first on HGR Inc..
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U.S. Inflation Slowed Sharply to 7.1% Over Past 12 Months Christopher Rugaber | Nov 13, 2022 | IEN Inflation in the United States slowed again last month in the latest sign that price increases are cooling despite the pressures they continue to inflict on American households. Economists expect the Fed to further slow its rate... Read More... The post Weekly Roundup – U.S. Inflation Slowing Down? Predictions for Manufacturing in 2023, Embracing Automation Technologies – Week of 12/12/22 appeared first on HGR Inc..
Posted by on 2022-12-15
Could These Risks Derail Your 2023 Engineering Projects? Design News | Dec 6, 2022 | Design News Design News asked Matthew Bey, senior global analyst for RANE, a risk intelligence company, about the current supply chain risks that could impact engineering projects in 2023. Around this time each year, RANE shares the key global trends and constraints that... Read More... The post Weekly Roundup – Could These Risks Derail Your 2023 Engineering Projects? 3 Critical Factors for Industry’s Future, Can Robotics Solve Labor Shortages – Week of 12/05/22 appeared first on HGR Inc..
Posted by on 2022-12-08
There are several different types of slings used in rigging, each with their own specific applications and limitations. Wire rope slings are commonly used for heavy lifting operations and are known for their strength and durability. They are suitable for use in a variety of environments, including those with high temperatures or corrosive substances. Chain slings are another common type of sling, offering excellent resistance to abrasion and high temperatures. They are often used in applications where a high level of strength and durability is required. Synthetic slings, such as nylon or polyester web slings, are lightweight and flexible, making them ideal for delicate or irregularly shaped loads. However, they may have limitations in terms of temperature and chemical resistance. It is important to carefully consider the specific requirements of the rigging operation and select the appropriate type of sling accordingly.
Proper inspection of lifting and rigging equipment is crucial to ensure its safe operation. Before each use, the equipment should be visually inspected for any signs of damage, such as cracks, fraying, or deformation. Any damaged or worn components should be replaced before the equipment is used. Additionally, it is important to check that all attachments, such as hooks or shackles, are securely fastened and in good working condition. After use, the equipment should be thoroughly inspected for any signs of wear or damage that may have occurred during the operation. This includes checking for any deformation or stretching of slings, as well as inspecting the lifting device for any signs of stress or fatigue. Regular maintenance and lubrication of the equipment should also be carried out to ensure its continued safe operation.
Safety Considerations for Dallas-TX-Based Industrial Equipment Maintenance and Repair Companies
Properly securing a load is essential to prevent shifting or falling during lifting and rigging operations. One recommended technique is to use appropriate rigging hardware, such as shackles or hooks, to securely attach the load to the lifting device. It is important to ensure that the hardware is properly rated for the weight and type of load being lifted. Additionally, the load should be evenly distributed and balanced to prevent any tipping or instability. This can be achieved by using multiple slings or spreader bars to evenly distribute the weight. It is also important to use appropriate padding or protection to prevent any damage to the load or slings. Regular monitoring of the load during lifting is essential to detect any signs of shifting or instability and take corrective action if necessary.
Lifting and rigging operations can pose several hazards and risks if not properly managed. One potential hazard is overloading, which can lead to equipment failure and potentially dangerous situations. To mitigate this risk, it is important to accurately calculate the weight of the load and ensure that the lifting device has the necessary capacity. Another potential hazard is the failure of rigging equipment, such as slings or hooks, which can result in dropped loads or injuries to personnel. Regular inspection and maintenance of the equipment is essential to detect any signs of wear or damage that may compromise its integrity. Other hazards include improper lifting techniques, inadequate training of personnel, and environmental factors such as high winds or uneven terrain. Safety measures to mitigate these risks include providing proper training and supervision, using appropriate personal protective equipment, and following established procedures and guidelines.
Lifting and rigging operations are governed by various regulations and standards to ensure the safety of personnel and equipment. In the United States, the Occupational Safety and Health Administration (OSHA) sets forth regulations and guidelines for safe lifting and rigging practices. These include requirements for equipment inspection, training and certification of personnel, and the use of appropriate safety measures. Non-compliance with these regulations can result in penalties and fines, as well as potential legal liability in the event of accidents or injuries. Additionally, there are industry-specific standards and guidelines, such as those set forth by the American Society of Mechanical Engineers (ASME) and the National Association of Chain Manufacturers (NACM), which provide further guidance on safe lifting and rigging practices. It is important for organizations and individuals involved in lifting and rigging operations to familiarize themselves with these regulations and standards and ensure compliance to maintain a safe working environment.
Workers can be protected from exposure to radiation during maintenance by implementing a comprehensive set of safety measures. Firstly, it is crucial to provide workers with appropriate personal protective equipment (PPE) such as lead aprons, gloves, and goggles, which can effectively shield them from radiation. Additionally, the work area should be properly demarcated and restricted to authorized personnel only, minimizing the chances of accidental exposure. Regular monitoring of radiation levels using dosimeters and continuous training on radiation safety protocols are also essential to ensure workers are aware of potential risks and can take necessary precautions. Furthermore, implementing engineering controls like radiation shielding and ventilation systems can further reduce radiation exposure. Lastly, regular maintenance and inspection of equipment and facilities can help identify and address any potential sources of radiation leaks or contamination, ensuring a safe working environment for all workers involved.
Chemical compatibility for storage can be determined through a variety of methods, including conducting compatibility tests, consulting chemical compatibility charts, and reviewing safety data sheets. Compatibility tests involve mixing the chemicals in question and observing any reactions or changes in physical properties. Chemical compatibility charts provide a quick reference for determining which chemicals can be safely stored together based on their potential for reaction or degradation. Safety data sheets also offer valuable information on chemical incompatibilities and storage requirements. Additionally, consulting with a chemical safety specialist or utilizing computer software designed to assess chemical compatibility can further aid in determining the suitability of storage conditions for various chemicals. By utilizing these methods, individuals can ensure the safe and proper storage of chemicals to prevent hazardous reactions and maintain the integrity of the stored materials.
Confined spaces should be ventilated during maintenance by using mechanical ventilation systems such as blowers, fans, or ducts to ensure the circulation of fresh air. It is important to monitor the air quality and use gas detection equipment to detect any hazardous gases or fumes present in the confined space. Additionally, proper ventilation should be maintained throughout the duration of the maintenance work to prevent the buildup of toxic or flammable gases. Adequate ventilation can help to mitigate the risk of asphyxiation, fire, or explosion in confined spaces, ensuring the safety of workers and preventing potential accidents. It is also essential to follow OSHA regulations and industry standards for confined space ventilation to ensure compliance and safety.
Emergency spill cleanup kits should include a range of equipment to effectively handle different types of spills. These kits typically consist of absorbent materials such as spill pads, absorbent socks, and absorbent pillows, which are designed to quickly soak up and contain the spilled substance. Additionally, the kits should include personal protective equipment (PPE) such as gloves, goggles, and protective clothing to ensure the safety of the individuals involved in the cleanup process. Other essential equipment may include spill containment booms, which help to prevent the spread of the spill, and spill response tools like shovels, brooms, and dustpans to aid in the physical removal of the spilled material. It is also important to include waste disposal bags or containers to properly dispose of the contaminated materials. Overall, a well-equipped emergency spill cleanup kit should address the specific needs of the situation and provide the necessary tools to effectively and safely manage the spill.
Emergency eye wash stations should be strategically located in areas where there is a higher risk of eye injuries or exposure to hazardous materials. These areas may include laboratories, chemical storage areas, manufacturing facilities, and areas where corrosive substances are used or handled. It is important for eye wash stations to be easily accessible and clearly marked with highly visible signage. Additionally, they should be located within a 10-second reach from the potential hazard, and the path to the eye wash station should be free from obstructions. Regular training and drills should also be conducted to ensure that all employees are aware of the location of the eye wash stations and know how to use them in case of an emergency.
Equipment maintenance logs should include detailed information about the equipment being serviced, including the make and model, serial number, and any other identifying information. The date and time of the maintenance should also be recorded, along with the name of the technician who performed the service. The log should include a description of the maintenance performed, including any parts that were replaced or repaired. Any issues or problems that were identified during the maintenance should be noted, along with any recommendations for future maintenance or repairs. The log should also include any testing or calibration that was performed, along with the results of those tests. Finally, the log should be signed and dated by the technician who performed the maintenance, as well as any other relevant personnel who were involved in the process.
Materials should be handled with caution and proper safety measures to prevent injury during maintenance. It is crucial to follow established protocols and guidelines to ensure the safe handling of materials. This includes wearing appropriate personal protective equipment (PPE) such as gloves, goggles, and helmets. Additionally, workers should be trained on proper lifting techniques to avoid strains and sprains. It is important to use tools and equipment that are in good working condition and to inspect materials for any defects or damage before handling them. Adequate storage and organization of materials can also help prevent accidents and injuries. By implementing these safety measures, the risk of injury during maintenance can be significantly reduced.