Home > Occupational safety training > Study and get certified > Occupational safety knowledge > Occupational safety documents > Safety Document Group 3 > Occupational Safety Manual for Drum Manufacturing

Category Map

DOWNLOAD THE OCCUPATIONAL SAFETY DOCUMENT SET (6 GROUPS, MORE THAN 300 PROFESSIONS)

Explore in-depth occupational safety documents for the drum manufacturing industry. Detailed guidance on safety measures, risk prevention, and worker health protection to enhance work efficiency and minimize accidents.

Table of Contents

PART I: CURRENT STATE OF SAFETY IN THE DRUM MANUFACTURING INDUSTRY

I. General Situation

The Ministry of Labour, Invalids and Social Affairs informs sectors and localities of the occupational accident situation in the first 6 months of 2024 and outlines key solutions to proactively prevent incidents and accidents in the last 6 months of 2024. According to reports from 61 out of 63 centrally governed provinces and cities, in the first 6 months of 2024, there were a total of 3,201 occupational accidents nationwide (a decrease of 227 cases, equivalent to 7.09% compared to the same period in 2023), resulting in 3,065 victims (a decrease of 197 people, equivalent to 6.04% compared to the first 6 months of 2023), including both employees under labor contracts and those working without labor contracts. Specifically:

Number of fatal occupational accidents: 320 cases, a decrease of 25 cases (7.25%) compared to the first 6 months of 2023 (including 245 cases in areas with labor relations, a decrease of 28 cases or 10.3%; and 75 cases in areas without labor contracts, an increase of 3 cases or 4.2% compared to the first 6 months of 2023);
Number of deaths due to occupational accidents: 346 people, a decrease of 7 people or 1.98% compared to the same period in 2023 (including 268 in areas with labor relations, a decrease of 13 people or 4.63%; and 78 in areas without labor contracts, an increase of 6 people or 8.33%).
Number of people seriously injured: 810 people, an increase of 26 people or 3.32% compared to the first 6 months of 2023 (including 710 in areas with labor relations, a decrease of 5 people or 0.7%; and 100 in areas without labor contracts, an increase of 31 people or 44.92%).

Download the PDF file Occupational Accident Report – First 6 Months of 2024 issued by the Ministry of Labour, Invalids and Social Affairs.

The occupational accident situation in the first 6 months of 2024 in both sectors with and without labor relations saw a decrease in the number of deaths and fatal accidents compared to the same period in 2023.

II. Some Occupational Accidents in Drum Manufacturing Plants

In drum manufacturing plants, occupational accidents can occur for various reasons, from technical failures to shortcomings in work processes. Here are some typical accidents that the drum manufacturing industry has faced:

Equipment-related accidents: Many accidents occur when machinery is not properly maintained or when workers do not use protective equipment. For example, incidents with presses or cutting machines can cause serious injuries.
Chemical poisoning: The use of chemicals in the drum production process can lead to poisoning if safety measures are not followed. These chemicals can cause skin irritation, respiratory issues, or even poisoning if not handled correctly.
Collision and falling object accidents: During the movement and assembly of drum components, inattention can lead to accidents from collisions with heavy objects or falling parts. This can cause injuries ranging from minor to severe.
Mechanical injuries: Tasks such as assembly, welding, and handling drum components can lead to mechanical injuries if workers do not use proper techniques or wear necessary protective equipment.

These accidents not only affect the health and safety of workers but also reduce production efficiency and increase costs for the business. Identifying and preventing these risks is very important to protect workers’ health and maintain a safe working environment.

PART II: OCCUPATIONAL SAFETY AND HEALTH WHEN WORKING IN A DRUM MANUFACTURING PLANT

I. Occupational Safety and Health for Machining and Material Cutting Staff

1. Characteristics of Machining and Material Cutting Work

During the machining and cutting phase, materials are processed with precision and care to ensure that all drum parts are created according to the design specifications. This process begins with selecting the appropriate material, such as steel or aluminum, and then feeding it into specialized processing machines. Depending on the design, the material will be cut, bent, and shaped to create parts of the drum such as the body, bottom, lid, and other components.

To achieve high precision, advanced machinery technologies such as laser cutting machines, CNC bending machines, and automatic drilling machines are often used. Precision in machining and cutting not only affects the quality of the final product but also ensures that the drum parts assemble perfectly with each other. Therefore, this stage requires meticulous attention and frequent quality checks to ensure that all dimensions and technical specifications are met correctly.

2. Types of Occupational Accidents during Machining and Material Cutting

The process of machining and cutting to size in drum production can pose many risks of occupational accidents if not carried out according to safety procedures. Common accidents include injuries from direct contact with cutting and bending machinery, such as hand cuts or getting caught in the machine. Strong impacts with machine parts can lead to broken bones or serious injuries.

In addition, dust and debris generated during machining can cause respiratory problems if there is no effective dust extraction system. Long-term exposure to liquids or chemicals used in machining can also lead to skin diseases or other health problems. To minimize risks, it is extremely important to adhere to safety measures, use adequate personal protective equipment, and maintain equipment in good condition. Workers need to be trained to recognize and prevent potential hazards, while also complying with occupational safety regulations throughout the production process.

3. Causes of Occupational Accidents during Machining and Material Cutting

Occupational accidents during the process of machining and cutting to the correct size often stem from a variety of causes. One of the main reasons is a failure to follow safety procedures, such as not wearing full personal protective equipment or not using machinery according to instructions. Technical problems with processing equipment, like cutting or bending machines, can also cause accidents if the equipment is faulty or improperly maintained.

Furthermore, the lack of experience and skills of workers also plays an important role in causing accidents. When workers are not adequately trained or unfamiliar with machine operations, the risk of incidents increases. On the other hand, an unsafe working environment, such as a lack of a dust extraction system or a cramped workspace, can also contribute to an increased risk of accidents. To minimize these risks, maintaining a safe working environment, performing regular equipment maintenance, and providing continuous training for workers are extremely necessary.

4. Measures to Prevent Occupational Accidents during Machining and Material Cutting

To prevent occupational accidents during the process of machining and cutting to the correct size, implementing safety measures is very important. First, workers need to be fully trained on the work process and how to use machinery safely. Equipping them with personal protective equipment, such as gloves, safety glasses, and masks, is essential to protect the health and safety of workers.

Regular maintenance and inspection of machinery are important measures to detect technical problems early and prevent accidents. Processing equipment must be regularly checked to ensure they operate effectively and safely. Furthermore, maintaining a clean and well-organized work environment will help minimize accident risks. Using an effective dust extraction system and keeping the work area well-ventilated is also a good way to prevent respiratory health issues.

Finally, establishing and adhering to occupational safety regulations is necessary to create a safe and efficient work environment. These measures not only protect the health of workers but also enhance production efficiency and product quality.

5. Occupational Safety Regulations for Machining and Material Cutting

When machining and cutting drum parts to the correct size, adhering to occupational safety regulations is a prerequisite for ensuring a safe and efficient work environment. One of the important regulations is the requirement for workers to be fully trained on the work process and how to use machinery safely. This includes understanding potential hazards and how to prevent them.

The regulations also require the use of personal protective equipment such as gloves, safety glasses, and masks to protect workers from debris and dust. In addition, processing equipment must be regularly maintained and thoroughly inspected to detect and promptly address technical issues. A dust extraction and ventilation system needs to be maintained to minimize the risk of health problems from dust and chemicals.

The work environment also needs to be organized logically, with a clean and tidy workspace to reduce the risk of slipping and collision. Adhering to safety regulations not only protects the health of workers but also contributes to improving labor productivity and product quality.

6. Handling Emergency Occupational Accidents during Machining and Material Cutting

When an occupational accident occurs during the process of machining and cutting to the correct size, handling the emergency situation quickly and effectively is very important to ensure safety and minimize losses. First, all machine operations must be stopped immediately to prevent further injury or widespread danger.

Immediately after, workers need to call for emergency medical services and report the incident to a manager or the occupational safety department. While waiting for assistance, if possible, basic first aid measures such as stopping bleeding or soothing a wound should be performed, depending on the type and severity of the injury.

At the same time, ensure that the accident area is controlled and isolated to avoid further risk to others. The equipment or conditions that caused the accident need to be immediately assessed and rectified to prevent similar incidents from happening. Finally, a detailed investigation into the cause of the accident and a review of safety procedures are necessary to improve and prevent future incidents.

II. Occupational Safety and Health for Welding and Assembly Staff

1. Characteristics of Welding and Assembly Work

During the welding and assembly phase, the parts of the drum are connected to form a complete structure. This process begins with the precise alignment of components such as the body, bottom, and lid of the drum. Welding is performed with care, using specialized welding equipment to ensure that the welds are strong and durable. For materials that require high precision, such as stainless steel or special alloys, selecting the appropriate welding type and adjusting the technical parameters is very important.

After welding is complete, the parts will be thoroughly inspected to ensure there are no defects that could affect the durability and function of the drum. Next, the assembly process will be carried out, including attaching auxiliary parts such as handles, locks, and gaskets. The details must be installed in the correct position and checked to ensure that they operate smoothly and do not cause obstruction.

The welding and assembly phase requires high precision and craftsmanship to ensure that the finished drum not only meets quality standards but is also capable of operating effectively in real-world conditions.

2. Types of Occupational Accidents during Welding and Assembly

During the welding and assembly of drum parts, many types of occupational accidents can occur if safety measures are not followed. One of the common accidents is burns from contact with sparks or molten metal during welding. Debris and sparks from the welding process can cause burns to the skin or eyes if not adequately protected.

In addition, workers may experience mechanical injuries such as impacts or being pinched when working with heavy parts or when using welding and assembly equipment. Carelessness during the assembly process can lead to parts not being installed correctly, causing incidents or equipment damage during later use.

Exposure to welding fumes and additives can cause respiratory problems if there is not a good ventilation and protection system. These accidents not only affect the health of workers but can also reduce production efficiency and cause significant losses for the business. To prevent this, it is very important to adhere to safety regulations, use protective equipment correctly, and ensure a clean and well-ventilated work environment.

3. Causes of Occupational Accidents during Welding and Assembly

Occupational accidents during the process of welding and assembling drums often arise from several main causes. One of the common causes is the lack of adherence to safety regulations, such as not using full personal protective equipment like welding glasses, gloves, and fire-resistant clothing. Not wearing this protective gear can lead to eye burns, skin burns, or other serious injuries.

Technical issues are also a significant cause. Welding machinery and equipment, if not regularly maintained and inspected, can malfunction, leading to accidents such as breakdowns or explosions. Additionally, incorrect assembly due to lack of experience or skills can also cause incidents. Errors in aligning and connecting parts can lead to the risk of parts falling or colliding, causing injury to workers.

An unsafe working environment, such as a lack of ventilation or a cramped workspace, also contributes to an increased risk of accidents. To prevent this, it is essential to adhere to safety procedures, regularly maintain equipment, and maintain a clean and well-ventilated work environment.

4. Measures to Prevent Occupational Accidents during Welding and Assembly

To prevent occupational accidents during the welding and assembly process, implementing safety measures is extremely important. First and foremost, workers need to be fully trained in welding techniques and assembly procedures, including the use of personal protective equipment such as welding glasses, fire-resistant gloves, and protective clothing. This comprehensive equipment helps minimize the risk of burns and injuries related to sparks and high temperatures.

Regular maintenance and inspection of welding and assembly equipment are also a crucial factor in preventing accidents. Ensuring that all machinery and tools are in good working order and properly maintained helps to detect and promptly repair technical issues before they become a cause of accidents.

In addition, maintaining a safe and clean work environment, including an effective ventilation system to remove welding fumes and dust, is necessary. Ensuring a spacious and tidy workspace helps to minimize the risk of slipping and collision. Finally, adhering to occupational safety regulations and conducting regular safety checks will contribute to creating a safer work environment, reducing the risk of accidents, and improving work efficiency.

5. Occupational Safety Regulations for Welding and Assembly

When welding and assembling parts of a drum, it is very important to adhere to occupational safety regulations to ensure the health and safety of workers. The first regulation requires workers to be fully trained in welding techniques and assembly procedures. They need to clearly understand how to use welding equipment, as well as accident prevention measures, including wearing full personal protective equipment such as safety glasses, fire-resistant gloves, and protective clothing.

In addition, welding and assembly equipment must be periodically inspected and maintained to ensure they are in good working and safe condition. This includes checking electrical systems, connections, and adjusting machinery to avoid technical problems. The regulations also require maintaining a clean and well-ventilated work environment. The ventilation system needs to operate effectively to minimize welding fumes and dust, while the workspace needs to be organized logically to reduce the risk of accidents from slipping or collision.

Finally, occupational safety regulations require the implementation of regular safety inspection procedures and having an emergency response plan to handle unexpected situations. Adhering to these regulations not only protects workers’ health but also enhances work efficiency and ensures product quality.

6. Handling Emergency Occupational Accidents during Welding and Assembly

When an occupational accident occurs during the welding and assembly process, a quick and effective response is very important to minimize consequences and ensure the safety of everyone. As soon as an accident is detected, the first thing to do is to immediately stop all machinery and welding activities to prevent the risk of further injury or fire.

After stopping work, it is necessary to quickly call for emergency medical services and notify the management or occupational safety department of the incident. While waiting for assistance, basic first aid measures should be performed, such as stopping bleeding or soothing the wound, depending on the victim’s condition.

Ensure that the accident area is isolated and controlled to avoid risks to others. The equipment involved in the incident also needs to be immediately inspected and repaired to prevent further incidents.

Finally, conduct a detailed investigation to determine the cause of the accident and review the work process to adjust and improve safety measures, to prevent similar incidents from happening in the future. Implementing these steps not only protects workers’ health but also enhances the efficiency and safety of the work process.

III. Occupational Safety and Health for Surface Treatment Staff

1. Characteristics of Surface Treatment Work

Treating the drum surface is an important step to protect the product from rust, corrosion, and to improve its aesthetic appeal. This process begins with preparing the drum surface to ensure that the treatment layer adheres firmly and effectively. The treatment can include various methods such as painting, plating, or polishing, depending on the functional and aesthetic requirements of the product.

Painting is a common method that creates a protective layer against corrosion and provides color and gloss to the drum. The painting process usually requires a primer layer first, followed by the main paint layer, to ensure the adhesion and durability of the paint layer. Metal plating is another option, particularly effective in protecting the surface from corrosion and improving mechanical strength. Plating can be done by dipping or spraying, creating a thin but durable metal layer on the drum surface.

Polishing is the final method to brighten and smooth the surface, improving the aesthetic appeal and giving the product a shiny appearance. This process requires high precision to achieve an even and beautiful surface. All surface treatment methods require careful quality inspection to ensure that the finished product meets the desired technical and aesthetic standards.

2. Types of Occupational Accidents during Surface Treatment

During the process of treating drum surfaces, occupational accidents can arise from various causes, posing significant risks to workers. When painting, accidents can include issues such as exposure to toxic paint fumes, leading to respiratory problems or skin irritation if proper protective equipment is not used. The use of spray painting machinery can also cause injuries from paint jets hitting the eyes or skin if workers do not wear safety glasses and adequate protective gear.

During the plating process, workers may face risks from toxic chemicals used in the plating process, such as acids or plating solutions, which can cause burns or skin damage upon direct contact. Additionally, handling heavy equipment or plated parts can lead to mechanical injuries such as impacts or being pinched.

When polishing, the main risk of accidents comes from exposure to metal dust or debris from the polishing process, which can cause irritation or respiratory problems. The use of polishing machinery can also lead to injuries from incorrect operation or technical failures. To minimize these risks, it is very important to use full personal protective equipment, adhere to safety procedures, and maintain a clean working environment.

3. Causes of Occupational Accidents during Surface Treatment

The causes of occupational accidents during the surface treatment of drums often stem from a variety of factors related to technique and the work environment. A major cause is unsafe contact with toxic chemicals. In the painting process, the compounds in the paint can cause irritation or burns if not handled carefully. If workers do not use full protective equipment such as masks and gloves, they can be severely affected by toxic paint fumes.

Additionally, during the plating process, working with acid solutions or molten metal can lead to accidents if proper protective measures are not in place. Contact with these chemicals can cause burns or skin problems if there is not adequate protection. Furthermore, errors in the operation of machinery such as plating machines or polishing equipment can also lead to accidents. The use of unmaintained equipment or incorrect operation can cause mechanical injuries such as impacts or being pinched.

Finally, an unsafe work environment, including a cramped space, lack of ventilation, or poor hygiene, also contributes to the risk of accidents. Lack of light or a cluttered work environment can increase the risk of slipping or collision. To minimize these causes, it is essential to adhere to occupational safety regulations and implement adequate protective measures.

4. Measures to Prevent Occupational Accidents during Surface Treatment

To prevent occupational accidents when treating drum surfaces, implementing safety measures is extremely important. First and foremost, workers need to be fully trained on the surface treatment process, including the correct use of chemicals, equipment, and machinery. They must clearly understand the potential hazards and preventive measures, and always adhere to occupational safety regulations.

The use of full personal protective equipment is an indispensable factor. During the painting process, workers need to wear protective masks and chemical-resistant gloves to avoid contact with toxic paint fumes. When working with plating solutions or chemicals, corrosion-resistant gloves and eye protection must also be used. For polishing work, masks and safety glasses help prevent dust and debris from entering the eyes or respiratory system.

In addition to personal protection, the work environment also needs to be strictly managed. Ensure the ventilation system operates effectively to remove smoke and toxic fumes, and maintain a clean, uncluttered workspace. Machinery and equipment need to be regularly inspected and maintained to ensure they operate safely.

Finally, having an emergency response plan and basic first aid procedures helps ensure that workers can react quickly and handle accident situations if they occur. These measures not only protect workers’ health but also ensure the efficiency and quality of the work.

5. Occupational Safety Regulations for Surface Treatment

Occupational safety regulations during the surface treatment of drums are very important to protect workers’ health and ensure work efficiency. These regulations include the correct and full use of personal protective equipment, such as gloves, safety glasses, and masks to protect against dust or toxic fumes, depending on the type of surface treatment being performed. Workers need to be thoroughly trained and instructed on how to use protective equipment and safe work methods.

The surface treatment process, including painting, plating, and polishing, must comply with technical standards and safety regulations stipulated in labor law. The chemicals and solutions used during painting or plating must be stored and handled correctly to minimize the risk of contact and contamination. Workers also need to know how to handle incidents such as chemical leaks or machinery failures safely.

The work environment needs to be maintained clean and well-ventilated to remove dust and toxic fumes. Equipment and machinery must be regularly maintained and inspected to ensure safe operation. In addition, the regulations also require the implementation of emergency response measures and the availability of first aid tools in case of an accident. Adherence to these regulations not only helps ensure the safety of workers but also improves the efficiency and quality of the surface treatment work.

Complete occupational safety tests at occupational safety centers to obtain an occupational safety certificate. This will allow workers to have a clear understanding of safety knowledge as well as valid certification for employment.

6. Handling Emergency Occupational Accidents during Surface Treatment

In the event of an occupational accident during the surface treatment of a drum, proper emergency handling is very important to minimize consequences and protect workers’ health. First, the worker or manager needs to immediately assess the situation and determine the severity of the accident. If there is contact with toxic chemicals, such as paint or plating solution, the victim should be quickly moved out of the affected area and the chemical washed off the skin with clean water and soap, while avoiding further contact with the body.

If the accident involves mechanical injury, such as impact or being pinched, the wound should be quickly checked and basic first aid measures applied. For severe injuries, such as broken bones or serious bleeding, an attempt should be made to stabilize the wound and take the victim to the nearest medical facility for timely treatment.

In addition, the internal medical team or emergency services should be notified immediately, depending on the severity of the situation. To reduce risks in the future, a review and improvement of safety measures, as well as retraining workers on emergency handling procedures, are very necessary. These measures help ensure that all emergency situations are handled effectively, protecting workers’ health and maintaining a safe working environment.

IV. Occupational Safety and Health for Staff Installing Additional Parts

1. Characteristics of Installing Additional Parts Work

Installing additional parts is an important stage in the drum production process, where small but essential details are installed to complete the product. In this step, parts such as handles, locks, and gaskets are attached to the main structure of the drum. The handles usually need to be securely installed to ensure ease and safety when moving the drum, while the locks and gaskets play an important role in protecting and enhancing the stability of the product. The assembly process requires precision and thoroughness, as incorrect installation can affect the function and durability of the drum.

Workers must check each part to ensure they fit and function correctly before proceeding to the next stage. This work not only requires meticulous installation but also requires technicians to have good mechanical skills and use appropriate tools. To achieve the best product quality, it is also very necessary to perform inspection and adjustment procedures after installation, to ensure that all additional parts are securely attached and operate as required.

2. Types of Occupational Accidents during the Installation of Additional Parts

During the process of installing additional parts such as handles, locks, and gaskets, various types of occupational accidents can occur. One of the common accidents is injury from impact or being pinched when working with tools or hard parts, especially when parts are not installed correctly or when inappropriate tools are used. Using the wrong technique or tool can lead to parts falling or getting stuck, causing injury to the worker.

In addition, accidents can also occur from contact with sharp objects such as screws, nails, or small metal details, leading to cuts or punctures. Incidents such as looseness or failure during assembly can also cause accidents, reducing the stability of the product and posing a risk during use.

These occupational accidents not only affect the health of workers but can also reduce production efficiency and cause product damage. Therefore, paying attention to correct assembly techniques and using personal protective equipment is very necessary to minimize the risk of accidents during the installation of additional parts.

3. Causes of Occupational Accidents when Installing Additional Parts

Occupational accidents during the process of installing additional parts such as handles, locks, and gaskets often stem from several main causes. A common cause is the use of incorrect or damaged tools, leading to incidents during assembly. When workers do not use appropriate tools or do not check the tools before working, the risk of injury from impact, being pinched, or cut increases.

Lack of training and guidance is also an important cause. If workers are not fully trained on assembly techniques or are not aware of safe work procedures, they may perform incorrect assembly steps, leading to accidents.

In addition, installing parts incorrectly or insecurely can also cause incidents such as parts falling or becoming loose, creating a risk of injury. A messy or poorly maintained work environment also contributes to an increased risk of accidents, as tools or materials that are not organized properly can pose a risk to workers.

Finally, work pressure and tight deadlines can cause workers to work hastily, leading them to skip safety and technical checks, increasing the likelihood of accidents. All these factors need to be considered and managed to minimize the risk of occupational accidents during the installation of additional parts.

4. Measures to Prevent Occupational Accidents when Installing Additional Parts

To prevent occupational accidents during the process of installing additional parts such as handles, locks, and gaskets, preventive measures must be strictly implemented. First, it is very important that workers are fully and continuously trained on safe assembly procedures. Workers need to be equipped with knowledge of correct assembly techniques as well as necessary safety measures to minimize risks.

Using appropriate tools and ensuring they are always in good condition is an essential factor. Tools should be regularly checked to detect and promptly repair problems that could be dangerous. In addition, performing inspection and preparation steps before starting assembly helps ensure that all parts and tools meet requirements and are safe.

The work environment also needs to be kept clean and tidy. Organizing tools and materials logically not only makes assembly easier but also reduces the risk of accidents. Workers should also always use appropriate personal protective equipment, such as cut-resistant gloves and safety glasses, to protect themselves from work-related hazards.

Finally, effective time management and ensuring there is no excessive work pressure will help workers work more carefully and accurately. Implementing these measures will contribute to creating a safe work environment and minimizing the risk of accidents during the installation of additional parts.

Complete the occupational safety training course to be issued an occupational safety card (group 3) by the occupational safety training center to complete your records as required for work.

5. Occupational Safety Regulations when Installing Additional Parts

When installing additional parts such as handles, locks, and gaskets, it is extremely important to adhere to occupational safety regulations to ensure the safety of workers and the quality of the product. Before starting work, workers must be fully trained on the assembly process and safety measures. The work process must be carried out according to technical instructions to avoid installation errors that could cause accidents.

The tools and equipment used in the assembly process must be inspected and maintained regularly to ensure they are always in the best condition. Workers must wear full personal protective equipment, including cut-resistant gloves, safety glasses, and safety shoes to minimize the risk of injury. The work environment must be kept clean and tidy, with all tools and materials organized logically for easy access and to reduce the risk of slipping or impact.

The regulations also require workers to immediately report any incidents or hazards detected during the work process. Monitoring and reporting hazardous situations helps to promptly implement corrective measures and improve the work process. Furthermore, there need to be clear regulations on rest and not overworking to ensure workers are always in the best condition when working.

Adhering to safety regulations not only protects the health and safety of workers but also ensures work efficiency and product quality.

6. Handling Emergency Occupational Accidents when Installing Additional Parts

When an occupational accident occurs during the process of installing additional parts such as handles, locks, and gaskets, timely and effective handling of the emergency situation is very important. First, as soon as an accident is detected, work should be stopped immediately and the manager or internal emergency team notified. Ensure that the accident area is clearly marked to prevent further risks and protect others from being affected.

Next, quickly assess the victim’s condition. If there are signs of serious injury, such as heavy bleeding, broken bones, or difficulty breathing, call the emergency phone number immediately and request professional medical assistance. While waiting for help, perform basic first aid measures if you are capable, such as controlling bleeding from a wound or performing CPR if necessary.

Provide accurate and detailed information about the accident to the medical team and authorities so they can provide appropriate treatment and handling. After the incident is handled, conduct an investigation to determine the cause and learn lessons to improve future safety measures. Ensure that all workers are informed of the situation and the necessary preventive measures to prevent similar accidents from occurring.

Handling an occupational accident situation quickly and effectively not only protects the health of workers but also helps maintain a safe work environment and comply with legal regulations.