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Table of Contents

PART I: CURRENT STATE OF SAFETY IN THE VACUUM CLEANER 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 Vacuum Cleaner Manufacturing Plants

During the production of vacuum cleaners, numerous serious occupational accidents have occurred. These incidents not only endanger the health and lives of workers but also affect the operational efficiency of the factory. Below are some common accidents:

Accidents due to machinery and equipment: Using large and complex machinery can lead to serious accidents if safety procedures are not followed. For example, hands or feet getting caught in the moving parts of a machine.
Electrical incidents: Many accidents occur due to problems with the electrical system, such as electrical leaks or unsafe installation and maintenance of electrical equipment.
Chemical poisoning: During production, chemicals used can cause poisoning if not handled and protected properly. For example, chemicals used for cleaning or maintaining machinery.
Risks from dust and noise: The working environment in a vacuum cleaner manufacturing plant often contains a lot of dust and noise, which can lead to respiratory and hearing problems if appropriate protective equipment is not used.

To minimize risks and ensure worker safety, it is extremely important to adhere to occupational safety regulations and to regularly inspect and maintain equipment.

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

I. Occupational Safety and Health for Mechanical Assembly Staff

1. Job Characteristics of Mechanical Assembly

Mechanical assembly in vacuum cleaner production is a crucial and highly precise stage. This job involves connecting mechanical parts such as the machine casing, motor, and filter. First, technicians receive pre-processed and prepared components. They begin by assembling the machine casing, ensuring that parts like the frame, cover, and shields are securely fastened to create a strong and stable structure.

Next, the motor and related parts are installed into the casing. The motor must be mounted precisely to ensure optimal performance while minimizing vibration and noise. Then, the filter and other auxiliary components like the dust hose are fitted into their correct positions.

The assembly work requires meticulousness and attention to the smallest details, as any error in this stage can affect the performance and durability of the final product. Technicians must follow a strict assembly process and perform regular checks to ensure all parts operate in sync and meet quality standards.

2. Types of Occupational Accidents during Mechanical Assembly

During the mechanical assembly process, connecting parts like the machine casing, motor, and filter can pose several risks leading to occupational accidents. One of the common accidents is injury from impact with sharp parts or mechanical equipment. When working with metal components and hand tools, workers can suffer from scratches, cuts, or punctures to the hands, causing serious injuries.

Another risk is accidents caused by faulty equipment or tools. For example, using damaged or improperly maintained tools can lead to them breaking, shattering, or falling, endangering those working nearby. Furthermore, installing the motor and other heavy parts can cause muscular and skeletal problems if proper lifting and moving techniques are not followed.

Accidents can also occur from incidents during testing and adjustment. If parts are not installed correctly, testing can lead to equipment instability or dangerous malfunctions. Therefore, adhering to safety procedures and using personal protective equipment is crucial to minimize risks and protect the health of workers during the mechanical assembly process.

3. Causes of Occupational Accidents during Mechanical Assembly

Occupational accidents during mechanical assembly often stem from several main causes. One of the primary reasons is a lack of care and negligence in following safety procedures. When technicians do not adhere to the correct assembly steps or use inappropriate equipment, the risk of accidents significantly increases.

Additionally, the use of tools and equipment that are not regularly maintained also contributes to the risk of accidents. Damaged or worn tools can lead to unexpected failures, causing mechanical parts to not be securely attached, which can result in injuries.

The lack of training and safety guidance is also a significant factor. Technicians who are not adequately trained in safe assembly methods may be unaware of potential risks and how to prevent them.

Finally, unsafe working conditions, such as a cramped workspace, poor lighting, or inadequate personal protective equipment, are major causes of occupational accidents. These factors increase the risk of injury and negatively impact the safety of workers during the mechanical assembly process.

4. Preventive Measures for Occupational Accidents during Mechanical Assembly

To minimize occupational accidents during the mechanical assembly process, implementing preventive measures is critically important. First, strict adherence to safety procedures is essential. Technicians need to be thoroughly trained on assembly processes and the use of tools to ensure they understand the necessary steps and know how to handle hazardous situations.

Regular maintenance and inspection of tools and equipment is also a key measure. Damaged or worn tools can cause incidents and accidents. Therefore, regular checks and replacing non-compliant equipment help minimize risks.

Providing and using adequate personal protective equipment is an indispensable factor. Technicians should be equipped with gloves, safety glasses, and other protective gear to reduce the risk of injury from sharp mechanical parts and other incidents.

Furthermore, organizing a safe and convenient working environment plays a crucial role. A tidy, well-lit workspace with ample room for movement will help minimize accidents and improve work efficiency. These measures not only protect the health of workers but also ensure the assembly process is smooth and effective.

5. Occupational Safety Regulations for Mechanical Assembly

Occupational safety regulations in mechanical assembly are essential to ensure the health and safety of workers. A key regulation is the proper execution of the assembly process, including specific steps for installing mechanical parts like the machine casing, motor, and filter. Technicians must be fully trained on this process and understand how to use tools and equipment safely.

Furthermore, the use of personal protective equipment is mandatory. Gloves, safety glasses, and safety shoes help protect workers from injuries due to impact, cuts, or contact with hot parts. Regulations also require maintaining safe working conditions, including keeping the work area clean and tidy to minimize the risk of slips and other accidents.

Regular inspection and maintenance of tools and equipment are also part of safety regulations. Equipment needs to be checked frequently to ensure it operates well and does not pose a danger. Finally, prompt reporting of incidents or non-compliance with regulations is necessary to address and improve working conditions. These regulations not only help reduce the risk of accidents but also enhance work efficiency in the mechanical assembly process.

6. Handling Emergency Occupational Accident Situations during Mechanical Assembly

When an occupational accident occurs during mechanical assembly, timely and effective handling is crucial to limit damage and ensure worker safety. First, upon discovering an accident, it is necessary to stop work immediately and alert colleagues and the factory’s medical department. This helps prevent the risk of the accident spreading and ensures timely support.

Next, it’s necessary to assess the victim’s condition to determine the severity of the injury. If the victim has a serious injury or cannot move on their own, call for an ambulance immediately and do not move the victim until the medical team arrives. If possible, perform basic first aid measures such as stopping bleeding, supporting the injured area, and keeping the victim calm.

At the same time, a preliminary investigation into the cause of the accident should be conducted to identify contributing factors and propose corrective measures to prevent similar incidents in the future. A detailed accident report must be prepared and sent to the relevant authorities to ensure compliance with regulations and safety procedures. Finally, after the emergency situation is handled, retraining and updating safety regulations for all staff is necessary to improve the work process and reduce the risk of future accidents.

II. Occupational Safety and Health for Electronics Assembly Staff

1. Job Characteristics of Electronics Assembly

Electronics assembly in the production of vacuum cleaners involves installing and connecting electronic components and the control circuit board. This job requires high meticulousness and precision, as each component and connection plays a crucial role in the machine’s operation. Technicians will begin by identifying and preparing electronic components such as microprocessors, sensors, and control circuits, ensuring all are of the correct type and free from defects.

Next, these components are mounted onto the circuit board according to the design schematic. The mounting of components must be precise to ensure that electrical connections function effectively and stably. Technicians use soldering tools to attach the components to the circuit board, while also inspecting the solder joints to prevent short circuits or loose connections.

Measurement and functional testing of the circuit board is the final step in this stage. Ensuring that all connections operate as required and are free of errors helps to protect the performance of the vacuum cleaner when it is in operation. Electronics assembly not only requires technicians to have high skills but also demands attention to the smallest details to ensure the final product meets high-quality standards.

2. Types of Occupational Accidents during Electronics Assembly

During the electronics assembly process, occupational accidents can occur due to various reasons. One of the common accidents is electric shock. When working with electronic components and control circuit boards, unsafe contact with power sources or electrical equipment can lead to serious injuries.

Injuries from tools are another risk, including cuts or scratches from using tools like wire cutters, tweezers, and soldering irons. These tools, if not used correctly or well-maintained, can cause accidents for workers.

Additionally, exposure to chemicals and soldering materials during assembly can also cause health problems, such as skin irritation or inhalation of toxic fumes. Long-term exposure to these chemicals without appropriate protective measures can lead to serious health issues.

Finally, accidents can also arise from working in an environment that does not meet lighting or hygiene standards. This can lead to inaccurate work, increasing the risk of equipment malfunction and causing unintended accidents. Therefore, implementing safety and protective measures is essential to minimize these risks and protect workers’ health.

3. Causes of Occupational Accidents during Electronics Assembly

Occupational accidents during electronics assembly often stem from several main causes. A significant cause is the lack of knowledge or skills of the workers. If technicians are not fully trained on how to work with electronic components and circuit boards, they may struggle to perform assembly steps correctly, leading to incidents like electric shock or incorrect connections.

Additionally, the use of substandard or faulty tools and equipment is a common cause. Tools like soldering irons, tweezers, or wire cutters, if not regularly maintained, can cause failures, thereby increasing the risk of injury.

The work environment also plays a crucial role in causing accidents. Poor lighting conditions, a cramped or messy workspace can lead to accidents due to inaccurate work or difficulty in accessing components.

Finally, the lack of personal protective measures and safety also contributes to an increased risk of accidents. If workers do not use personal protective equipment such as gloves, safety glasses, or masks when working with chemicals, they can face serious health problems. All these factors need to be managed and improved to ensure safety during the electronics assembly process.

4. Preventive Measures for Occupational Accidents during Electronics Assembly

To minimize occupational accidents during the electronics assembly process, preventive measures must be implemented seriously and synchronously. First and foremost, comprehensive training for technicians is a prerequisite. They need to master assembly procedures, safe use of tools and equipment, and basic first aid methods to be able to respond quickly in case of an incident.

The use of regularly maintained tools and equipment is also an important factor. Tools such as soldering irons, tweezers, and wire cutters should be checked regularly to ensure they are in good working order and do not pose a danger to users. In addition, providing and requiring the use of personal protective equipment such as gloves, safety glasses, and masks is essential to protect workers from potential hazards like electric shock and exposure to toxic chemicals.

The work environment also needs to be maintained in the best condition. It is necessary to ensure that the work area is well-lit, clean, and neatly organized to reduce the risk of slips and inaccurate work. Finally, establishing a timely incident reporting and handling process helps to quickly identify and rectify issues, thereby enhancing occupational safety and work efficiency. These measures not only protect the health of workers but also ensure safety and quality in the electronics assembly process.

5. Occupational Safety Regulations for Electronics Assembly

When assembling electronics, adherence to occupational safety regulations is critically important to protect health and ensure worker safety. The first regulation requires all technicians to be thoroughly trained on assembly procedures, tool usage, and safety measures. This helps them master the techniques and handle emergency situations effectively.

Next, the use of personal protective equipment such as gloves, safety glasses, and masks is mandatory. This equipment protects workers from hazards like electric shock, toxic fumes from soldering chemicals, and cuts from tools. In addition, regulations require that tools and equipment be regularly inspected and maintained to ensure they function well and do not pose a danger during work.

The work environment must also meet safety standards, with adequate lighting and a clean, tidy workspace. This helps prevent accidents due to poor working conditions or shortcomings in handling components. Furthermore, a clear process for reporting incidents and implementing timely corrective actions is also a crucial part of the safety regulations. Full compliance with these regulations not only protects workers but also ensures the efficiency and quality of the assembled product.

6. Handling Emergency Occupational Accident Situations during Electronics Assembly

When an occupational accident occurs during electronics assembly, emergency handling must be carried out quickly and accurately to minimize adverse effects. Immediately upon the accident, the first step is to stop work and alert colleagues as well as the factory’s medical department. This helps to prevent further risks and ensures that the victim receives necessary support.

If someone suffers an electric shock, immediately cut off the power source to prevent continued danger. Afterwards, if the victim is not showing signs of serious injury and can be moved, take them out of the hazardous area and perform basic first aid, such as stopping bleeding if necessary. If the victim is unresponsive or has severe injuries, do not move them and immediately call for an ambulance to handle the situation.

At the same time, a preliminary investigation should be conducted to determine the cause of the accident. This helps identify contributing factors and propose corrective measures to prevent similar incidents in the future. Finally, a full report of the accident must be prepared and sent to the relevant authorities to ensure compliance with safety regulations and to improve the work process. These steps not only help protect the victim but also enhance occupational safety in the work environment.

III. Occupational Safety and Health for Functional Testing Staff

1. Job Characteristics of Functional Testing

Functional testing is a critical stage in the vacuum cleaner production process, aimed at ensuring the machine operates according to its design and meets quality standards. During this stage, technicians will conduct detailed tests to confirm that all components of the machine, from the motor to the electronic parts, are functioning correctly and efficiently. The testing process involves activating the machine and monitoring the operation of its main functions, such as suction, power adjustment, and the operation of other parts.

Technicians also need to check performance indicators like air flow, noise level, and power consumption to ensure that the machine not only works correctly but also meets energy-saving and environmental protection standards. These tests require attention to the smallest details to detect any faults or errors, allowing for timely adjustments or repairs.

The functional testing process not only helps to ensure that the final product meets quality requirements but also helps to identify and rectify problems before the product is released to the market. This not only enhances customer satisfaction but also protects the manufacturer’s reputation.

2. Types of Occupational Accidents during Functional Testing

During the functional testing of vacuum cleaners, several types of occupational accidents can occur if safety measures are not properly implemented. One of the common types of accidents is electric shock. When testing the electrical functions of the machine, if the equipment is not properly de-energized or if there are insulation faults, technicians can suffer from electric shock, leading to serious injury.

Another type of accident is contact with moving parts of the machine. During testing, parts like the suction fan or motor can operate at high speeds, and if not careful, technicians can get cut or trapped. This is especially dangerous if protective measures are not used correctly or if workers are not equipped with adequate personal protective equipment.

In addition, working in an environment that is not clean or does not meet lighting requirements can cause accidents such as slips or collisions with other equipment. A poorly organized work environment can lead to inaccurate testing and increase the risk of incidents.

Finally, accidents can also occur from improper handling of chemicals or maintenance materials, causing skin irritation or respiratory problems. To minimize these risks, it is necessary to implement strict safety measures and ensure the work environment always meets standards.

3. Causes of Occupational Accidents during Functional Testing

Occupational accidents during the functional testing of vacuum cleaners often arise from several main causes. A leading cause is carelessness when working with electrical equipment. If technicians do not follow proper safety procedures when dealing with power sources, such as not de-energizing or checking for insulation, the risk of electric shock significantly increases.

Shortcomings in equipment maintenance and inspection are also a major cause. Testing equipment and tools, if not properly maintained, can become unstable or malfunction, leading to accidents. For example, if a testing tool is damaged and not replaced in time, it can cause dangerous situations like fractures or falls.

An inadequate work environment also contributes to an increase in accidents. A workspace with insufficient lighting, clutter, or poor sanitation can increase the risk of collisions, slips, or inaccurate work.

Finally, the lack of training and skills of technicians is also a significant factor. If technicians are not fully trained on functional testing procedures, they may make mistakes or be unaware of potential risks, leading to accidents. Therefore, thorough training and preparation are essential to minimize risks during the functional testing process.

4. Preventive Measures for Occupational Accidents during Functional Testing

To prevent occupational accidents during the functional testing of vacuum cleaners, applying strict safety measures is crucial. First, technicians need to be thoroughly trained on the testing process, safe equipment use, and emergency response methods. This training helps them understand the necessary steps and be aware of potential risks during their work.

Using personal protective equipment is an essential factor. Technicians should wear electrical insulating gloves, safety glasses, and masks when working with electronic components and testing tools. This helps protect them from risks such as electric shock, dust, and toxic chemicals.

Ensuring that testing tools and equipment are regularly maintained is an important measure to prevent technical failures. Tools like electrical meters, soldering irons, and other devices should be checked frequently to ensure they are in good working order and do not pose a danger during use.

The work environment also needs to be properly organized, with adequate lighting and a clean, tidy workspace. This helps reduce the risk of slips, collisions, and inaccurate work. Finally, implementing proper testing and maintenance procedures not only improves product quality but also ensures worker safety.

5. Occupational Safety Regulations for Functional Testing

Occupational safety regulations during the functional testing of vacuum cleaners are essential to ensure the safety of technicians and the quality of the product. First, technicians must be thoroughly trained on the testing process and the use of safety equipment. This training includes knowledge on how to handle electrical and electronic devices, as well as an awareness of potential risks in the work environment.

When conducting functional tests, all equipment must be de-energized and secured before work begins. The use of personal protective equipment such as insulating gloves, safety glasses, and masks is mandatory to protect workers from risks like electric shock, dust, and toxic chemicals.

Each work area needs to be scientifically and cleanly organized, with adequate lighting and a tidy space. This helps to avoid accidents such as slips and collisions, while improving work efficiency. Testing equipment and tools must be regularly maintained to ensure they are stable and do not pose a danger.

In addition, a clear incident reporting and rapid response process in case of an accident needs to be established. This not only helps to promptly handle emergencies but also improves future safety procedures. Compliance with these regulations ensures that functional testing is carried out safely and effectively, thereby enhancing product quality and protecting workers’ health.

Perform tests at occupational safety centers to obtain an occupational safety certificate. This will ensure that workers have a clear understanding of safety knowledge and possess a valid certification for their work.

6. Handling Emergency Occupational Accident Situations during Functional Testing

When an occupational accident occurs during the functional testing of a vacuum cleaner, timely and proper handling is very important to ensure safety and minimize consequences. First, if an incident such as an electric shock or a serious injury occurs, it is necessary to immediately disconnect the power and stop work. This not only prevents the risk of further accidents but also protects others in the area.

Next, the injured person needs to be given first aid immediately. For cases of electric shock, check for vital signs and call for emergency services is a crucial step. In case of minor injuries, cleaning the wound and bandaging it is necessary. Technicians need to know how to perform basic first aid techniques and ensure they have access to necessary medical equipment.

After handling the emergency situation, reporting the accident to the management and conducting an investigation is very important. This helps to identify the root cause of the accident and to implement preventive measures to prevent similar incidents in the future. Updating and adjusting safety procedures based on the investigation results is an effective way to improve the work environment and protect workers’ health.

Finally, monitoring the health of the worker after the accident and providing necessary support is also equally important. This ensures that they fully recover and are ready to return to work in the safest conditions.

IV. Occupational Safety and Health for Safety Testing Staff

1. Job Characteristics of Safety Testing

The job of safety testing in vacuum cleaner manufacturing requires special attention to safety factors such as electricity, heat, and mechanics to ensure the product meets quality and safety standards. When performing safety tests, technicians must thoroughly evaluate the machine’s electrical systems, including checking connections, insulation, and electrical components to identify any issues that could pose an electric shock risk.

In addition, checking thermal factors is also very important. Parts of the machine such as the motor and heat dissipation system must be evaluated to ensure they operate within a safe temperature range, avoiding overheating that could cause damage or fire. Technicians need to measure the operating temperature of these parts and ensure the heat dissipation system works effectively.

Finally, the mechanical factors of the machine also need to be checked to ensure that moving parts and the assembly structure operate smoothly without posing a risk of harm to the user. This includes checking the stability of mechanical parts, the tightness of connections, and ensuring that there are no loose or easily damaged parts.

Thoroughly performing the safety testing job helps ensure that the vacuum cleaner operates efficiently, safely, and meets all necessary quality standards.

2. Types of Occupational Accidents during Safety Testing

During the safety testing of vacuum cleaners, various types of occupational accidents can occur if proper procedures and preventive measures are not followed. A common type of accident is electric shock, which happens when technicians come into contact with electrical components of the machine without disconnecting the power or using proper insulation. This can cause serious injury or be life-threatening.

Additionally, contact with high temperatures is another risk. Parts of the machine, especially the motor and heat dissipation system, can become very hot during operation. If not handled carefully, technicians can get burned or cause heat-related incidents.

Mechanical accidents can also occur, such as getting a hand or foot caught in the moving parts of the machine. When testing mechanical factors, if parts are not securely fastened or there is a failure in the assembly mechanism, this can lead to collisions, slips, or other injuries.

All these types of accidents highlight the importance of implementing strict safety measures and adhering to safety testing procedures to protect workers from potential hazards.

3. Causes of Occupational Accidents during Safety Testing

Occupational accidents during the safety testing of vacuum cleaners often stem from several main causes. A common cause is the lack of preparation and adequate training for technicians. If not thoroughly trained on safety testing procedures, technicians may not be aware of potential risks or know how to use protective equipment correctly.

A second cause is the failure to implement safety measures. For example, if technicians do not disconnect the power before testing or do not use insulation equipment, the risk of electric shock is very high. Similarly, not checking the heat dissipation system can lead to parts overheating, causing burns to the tester.

In addition, testing equipment and tools that are not regularly maintained or properly checked can fail, leading to accidents. Loose or unstable mechanical parts can cause injuries upon contact or during testing.

Finally, an irrational work environment also contributes to the risk of accidents. A messy, poorly lit, or inadequately spaced work environment can lead to slips, collisions, or difficulty in performing tests.

Identifying and addressing these causes is essential to minimize risks and ensure safety during the safety testing of vacuum cleaners.

4. Preventive Measures for Occupational Accidents during Safety Testing

To prevent occupational accidents during the safety testing of vacuum cleaners, implementing effective preventive measures is crucial. First, technicians need to be fully trained on safety testing procedures, including risk identification and the proper use of personal protective equipment. Continuous training and raising awareness about occupational safety helps employees understand and be better prepared for their jobs.

In addition, regular inspection and maintenance of equipment and tools are necessary to ensure they operate normally and do not pose a danger. Before starting the testing job, technicians should disconnect the power and ensure that insulation equipment is working effectively. At the same time, using protective equipment such as insulating gloves and safety glasses helps protect workers from risks related to electricity and heat.

The work environment also needs to be organized reasonably and safely. Ensuring the work area is clean, well-lit, and free of obstacles helps reduce the risk of slips and collisions. Technicians should also adhere to regulations on safe distances when working with hot parts or moving mechanisms.

Finally, implementing strict safety testing procedures and regularly reviewing and updating work processes is an effective way to prevent accidents and protect workers’ health.

Complete the occupational safety and health training course to be issued an occupational safety card by the training center to complete the required documentation for work.

5. Occupational Safety Regulations during Safety Testing

When testing the safety of a vacuum cleaner, compliance with occupational safety regulations is critically important to protect the health and safety of employees. First, all employees performing testing must be trained and certified in safety testing procedures, including basic knowledge of electricity, heat, and mechanics. This helps them recognize potential risks and respond correctly.

A key regulation is to ensure the power is disconnected before conducting tests on the machine’s electrical systems. Insulation equipment should be used to minimize the risk of electric shock. When testing thermal factors, it is necessary to ensure that the machine has cooled down or that cooling systems are effective to avoid burns or other heat-related injuries.

Mechanical parts must be carefully inspected to ensure they are stable and show no signs of damage that could cause an accident. Testing tools and equipment should be regularly maintained and their operational status checked before use.

In addition, the work environment should be organized reasonably and cleanly, ensuring there are no dangerous obstacles and sufficient lighting to perform tests accurately. Adhering to these regulations not only helps protect workers but also ensures that the vacuum cleaner operates safely and effectively according to quality standards.

6. Handling Emergency Occupational Accident Situations during Safety Testing

When an occupational accident occurs during the safety testing of a vacuum cleaner, quick and effective handling is crucial to minimize damage and protect workers’ health. In the event of an electric shock, the first thing to do is to immediately cut off the power supply and then use protective equipment, such as insulated gloves, to rescue the victim if necessary. Get the victim to the nearest medical facility and notify emergency medical services is the next necessary step.

If the accident is heat-related, such as a burn from hot parts, it is necessary to quickly cool the injured area with cool water and avoid using ice directly. Avoid touching hot parts and seek immediate medical attention to treat the burn and related injuries.

In the case of a mechanical accident, such as a hand or foot getting caught, the first step is to immediately stop the operation to prevent further injury. It is necessary to quickly use support tools, such as safety belt cutters or rescue equipment, to free the victim. After handling the situation, notify the medical team and investigate the cause of the accident to improve future safety procedures.

Properly carrying out these steps not only helps to effectively respond to emergencies but also helps to improve safety procedures and reduce the risk of future accidents.