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Ensuring safety in handheld massager production is a top priority! Our documentation provides detailed guidance on safety measures, helping you protect health and effectively prevent risks. Learn now to enhance occupational safety in your work environment!

Table of Contents

PART I: CURRENT STATE OF SAFETY WORK IN THE HANDHELD MASSAGER 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 Handheld Massager Manufacturing Plants

During the production of handheld massagers, several occupational accidents have occurred, seriously affecting the health and safety of workers. Below are some typical cases:

Accidents from contact with machinery: Some workers were injured through direct contact with machine parts during operation or maintenance. These accidents often occurred due to a lack of protective equipment or non-compliance with safety procedures.
Electricity-related accidents: Many accidents due to electrical leaks or system failures have led to serious injuries. This often happens when the electrical system is not regularly inspected or when electrical safety regulations are not followed.
Accidents due to incidents in transport and storage: Some workers suffered injuries while handling or transporting handheld massager components. These accidents are often related to not using support equipment or not following safe transport procedures.
Chemical-related accidents: During production, exposure to chemicals such as solvents or cleaning agents can cause health problems. Some workers have experienced skin or respiratory irritation due to not using personal protective equipment.

These accidents highlight the importance of implementing strict occupational safety measures and providing adequate training for workers to minimize risks and protect health in the work environment.

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

I. Occupational Safety and Health for Plastic and Metal Cutting Staff

1. Characteristics of Plastic and Metal Cutting Work

The plastic and metal cutting stage in handheld massager production is a crucial step to create precise and uniform parts. This process begins with receiving plastic and metal raw materials, which are then fed into specialized cutting machines. The cutting machines use advanced technology to ensure precise cutting according to the required size and shape, in order to meet strict quality standards.

In this stage, controlling precision is very important. Plastic and metal must be cut uniformly to avoid problems in later assembly stages. In particular, technicians need to pay attention to adjusting the cutting machine parameters to suit each type of raw material and the product’s design.

Cutting plastic and metal not only requires high technical skill but also demands attention to occupational safety. Workers must use personal protective equipment and adhere to safety procedures to avoid accidents that may occur during work. A precise and safe cutting process is a significant contribution to ensuring that the final product parts achieve high quality and the best performance.

2. Types of Occupational Accidents during Plastic and Metal Cutting

During the process of cutting plastic and metal, several types of occupational accidents can occur due to the nature of the job and the working environment. One of the common risks is being cut or struck by sharp cutting blades. When cutting machines operate at high speeds, failure to follow safety procedures or equipment malfunctions can lead to serious injuries. This type of accident often occurs when workers do not use adequate protective equipment or when the cutting blades are damaged.

Additionally, dust and debris from the cutting process can cause respiratory problems or skin irritation if there are no appropriate protective measures. Workers in poorly ventilated environments or who do not use protective masks may experience long-term health problems.

Another risk is electrical incidents from the cutting machines. Electrical leakage or failures in the electrical system can lead to electric shock injuries, severely affecting health. To minimize these accidents, regular equipment inspection, adherence to safety regulations, and the use of personal protective equipment are very important. This not only protects the health of the workers but also ensures that the production process runs safely and efficiently.

3. Causes of Occupational Accidents when Cutting Plastic and Metal

Occupational accidents during the plastic and metal cutting process often stem from various causes, primarily related to shortcomings in work procedures and compliance with safety regulations. A major cause is the improper use of equipment or inadequately maintained equipment. Cutting machines need to be regularly inspected and maintained to ensure they operate stably and safely. When equipment is faulty or not properly adjusted, the risk of accidents increases.

Shortcomings in adhering to safety procedures are also a significant cause. Workers may sometimes neglect to use personal protective equipment, such as cut-resistant gloves and safety glasses, leading to a risk of serious injury. Furthermore, if workers are not adequately trained on work procedures and safety measures, they may make dangerous mistakes.

It is also important to note that an unsanitary and poorly ventilated work environment can increase the risk of accidents. Dust and debris from the cutting process can reduce visibility and cause incidents. Therefore, maintaining a clean and well-ventilated work environment is very important to minimize accident risks. In summary, ensuring equipment works well, adhering to safety procedures, and maintaining a clean work environment are all important factors in preventing occupational accidents in the plastic and metal cutting stage.

4. Preventive Measures for Occupational Accidents when Cutting Plastic and Metal

To minimize occupational accidents in the plastic and metal cutting stage, applying preventive measures is very important. First, regular maintenance and inspection of equipment is one of the key measures. Cutting machines need to be maintained regularly to ensure they operate correctly and do not cause failures. This helps prevent accidents due to equipment failure or worn cutting blades.

Workers also need to be thoroughly trained on safe work procedures. This training includes instructing on the correct use of equipment, identifying risks, and how to handle emergency situations. This not only helps workers to work effectively but also raises awareness of occupational safety.

Using personal protective equipment is an indispensable measure. Workers should wear cut-resistant gloves, safety glasses, and masks to protect against dust and debris. This helps minimize the risk of injury and health problems.

Finally, maintaining a clean and well-ventilated work environment is also very important. Dust and debris from the cutting process should be cleaned up regularly to ensure clear visibility and reduce the risk of slips, trips, or impacts. A safe and clean work environment is the foundation for minimizing occupational accidents, protecting health, and improving work efficiency.

5. Occupational Safety Regulations when Cutting Plastic and Metal

Occupational safety regulations when cutting plastic and metal play an important role in protecting health and preventing accidents. First, the use of personal protective equipment is a mandatory requirement. Workers need to wear cut-resistant gloves, safety glasses, and masks to protect themselves from debris and dust. This protective equipment helps reduce the risk of injury and respiratory problems.

In addition, cutting machinery must be regularly maintained and inspected to ensure it operates stably and safely. This inspection includes checking the cutting blades, electrical system, and other parts of the machine to detect and promptly fix any potential problems.

Workers also need to be trained on safe work procedures and emergency response measures. This training not only helps them understand the work process but also raises awareness of risks and how to prevent them.

Finally, maintaining a clean and well-ventilated work environment is necessary. Dust and debris should be cleaned up regularly to avoid obstruction and reduce the risk of accidents. Full implementation of occupational safety regulations not only helps protect workers but also improves the efficiency and quality of work in the process of cutting plastic and metal.

6. Handling Emergency Occupational Accident Situations when Cutting Plastic and Metal

When an occupational accident occurs during the process of cutting plastic and metal, timely and proper handling is very important to minimize damage. Immediately after an incident is detected, workers should stop the machinery and cut the power to prevent further danger. For injuries caused by cutting blades or sharp objects, check the victim’s condition and quickly treat the wound by applying a gauze pad or pressure bandage to stop the bleeding.

If the victim shows signs of electric shock, do not have direct contact with them before the power has been disconnected, and call emergency services immediately. Ensure the victim receives timely medical care by notifying the company’s medical department and management. At the same time, record all details of the incident and complete an accident report to analyze the cause and improve safety measures.

After the incident, organize a meeting to evaluate and learn lessons, in order to adjust work processes and strengthen preventive measures. Quick and effective handling not only helps protect workers’ health but also maintains safety in the work environment.

II. Occupational Safety and Health for Detail Machining Staff

1. Characteristics of Detail Machining Work

Detail machining is an important stage in the production of handheld massagers, focusing on manufacturing parts such as the machine casing, handle, and other details with high precision. In this process, the parts are processed using advanced machining technologies such as lathing, milling, and grinding, to achieve the precise dimensions and shapes required by the design.

The characteristics of detail machining work include the use of specialized machinery and sharp cutting tools to perform sophisticated machining operations. Workers need to perform careful machine adjustments and continuous checks to ensure product quality. High precision is a crucial factor so that the machined parts can fit together perfectly during assembly.

The machining process requires a high degree of attention and sophisticated technique, as even a small error can affect the performance and durability of the final product. Therefore, quality control and adherence to technological processes are essential to ensure that the parts are machined to the correct standards and meet the product’s technical requirements.

2. Types of Occupational Accidents during Detail Machining

During the process of machining handheld massager parts, several types of occupational accidents can occur due to the nature of the work and working conditions. One of the main risks is being cut or struck by cutting blades and machining tools. When machinery operates at high speeds, metal or plastic parts can cause serious injuries if workers are not attentive or do not use protective equipment correctly.

The next risk is accidents related to dust and debris from the machining process. Metal or plastic dust can cause skin and respiratory irritation if there are no appropriate protective measures, such as dust masks and safety glasses. These situations not only affect the health of workers but also reduce work efficiency.

Machinery failure is also a serious hazard. Mechanical or electrical faults can lead to electric shock injuries or accidents due to equipment malfunction. Therefore, regular maintenance and inspection of equipment are very important to ensure safety.

Finally, a lack of organization and non-compliance with work procedures can also lead to occupational accidents. This can happen when workers do not follow safe work instructions or when the work environment is not properly maintained. Preventive measures and occupational safety regulations must be strictly implemented to protect the health and safety of workers during the detail machining process.

3. Causes of Occupational Accidents during Detail Machining

Occupational accidents during the detail machining process often stem from several main causes. A common cause is a lack of attention in using machinery. Machining equipment such as lathes, mills, and grinders operate at high speeds and great pressure; if not used correctly, they can lead to serious accidents. Workers’ failure to follow the correct operating procedures or to adjust machinery properly can cause incidents of cutting, impact, or injury.

The next cause is the inadequate maintenance of equipment and machining tools. Worn or damaged machinery and tools can increase the risk of accidents, such as broken cutting blades or electrical system failures. The lack of regular maintenance leads to mechanical failures, directly affecting occupational safety.

A lack of use of protective equipment also contributes to the risk of accidents. Workers not using safety glasses, cut-resistant gloves, or masks may face health problems or injuries from dust and debris from the machining process.

Finally, unsafe working conditions such as a cluttered work environment or insufficient lighting can also be a cause of accidents. These factors reduce the workers’ ability to observe and control, leading to unwanted accidents. To minimize risks, adherence to safety regulations, equipment maintenance, and full use of protective equipment are essential.

4. Preventive Measures for Occupational Accidents during Detail Machining

To prevent occupational accidents during the detail machining process, implementing safety measures is very important. First, workers need to be fully trained on the machining process and the use of machinery. They should master how to operate the machinery, identify potential risks, and how to handle incidents. This training not only helps to minimize risks but also improves work efficiency.

Next, regular maintenance and inspection of equipment are necessary to ensure they operate safely and efficiently. Machining equipment such as lathes, mills, and grinders need to be checked regularly to detect early signs of damage and repair them in time. This helps prevent mechanical failures that could cause accidents.

The full use of personal protective equipment is also an important measure. Workers should wear safety glasses, cut-resistant gloves, and dust masks to protect against debris and dust from the machining process.

Finally, maintaining a clean and tidy work environment helps to minimize the risk of accidents. Dust and debris should be cleaned up regularly, and the work area must be adequately lit to ensure clear visibility. These measures not only protect workers’ health but also improve the quality and efficiency of the detail machining work.

5. Occupational Safety Regulations for Detail Machining

When machining details such as the machine casing, handle, and other parts, occupational safety regulations play an essential role in protecting health and ensuring work efficiency. First, all workers must be thoroughly trained on the machining process, including how to use machinery and equipment safely. This training needs to emphasize the importance of adhering to operating instructions and safety regulations.

Personal protective equipment is a mandatory requirement during work. Workers need to wear safety glasses, cut-resistant gloves, and dust masks to protect against potential hazards such as debris, dust, and sharp objects. Regulations also require that all machining equipment be regularly inspected and maintained to ensure it operates stably and safely.

The work environment must also be maintained in a clean and tidy state. This includes cleaning up dust and debris immediately after machining to avoid risks of slipping or obstructing vision. The lighting system must be bright enough for workers to see clearly during work.

Finally, safety regulations require the implementation of emergency measures and response procedures in case of an accident. Workers need to know how to respond quickly and effectively in an emergency, and incidents must be recorded and analyzed to improve preventive measures. Full implementation of these regulations helps create a safe work environment and protects workers’ health during the detail machining process.

6. Handling Emergency Occupational Accident Situations during Detail Machining

When an occupational accident occurs during the detail machining process, a quick and accurate response is extremely important to minimize damage and ensure safety. As soon as an accident is detected, the worker or supervisor should immediately stop the machinery and cut the power to prevent the risk of further injury. Next, the victim’s condition should be checked and basic first aid measures performed. If the victim is seriously injured, such as with a deep cut or electric shock, first aid should be administered immediately, while calling for emergency services to transport the victim to the hospital in a timely manner.

In case of a risk of fire or explosion due to a machinery failure, use an appropriate fire extinguisher and ensure all workers evacuate the dangerous area. Ensure that fire-fighting equipment is regularly maintained and that staff know how to use it.

After the incident is under control, a detailed report of the accident should be made, including the cause, extent of damage, and actions taken. This helps to analyze the cause and improve safety procedures. Finally, organize a review meeting to draw lessons from the incident and adjust work processes to prevent similar accidents in the future. These steps not only help protect workers’ health but also ensure that occupational safety measures are implemented effectively.

III. Occupational Safety and Health for Motor and Circuit Assembly Staff

1. Characteristics of Motor and Circuit Assembly Work

Assembling the motor and circuit is a crucial stage in the production of handheld massagers, requiring precision and meticulousness. In this job, electronic components and the motor are assembled into the machine’s casing according to the correct technical procedure to ensure the machine operates effectively. The work begins with checking and preparing components such as the motor, circuit board, connecting wires, and other accessories. These parts are then installed in specific locations inside the casing, ensuring that all electrical and mechanical connections are correctly fitted.

The assembly process requires a high degree of attention to detail to ensure that components are not damaged and that electrical connections are made correctly. Workers must perform quality control checks after assembly to verify that the elements function correctly and there are no technical faults. Precision in the assembly stage is very important as it directly affects the performance and durability of the final product.

Assembly jobs often require high technical skill and experience, as any small error can lead to a failure in the machine’s operation. Therefore, adherence to assembly procedures and quality control checks is essential to ensure the handheld massager operates stably and effectively.

2. Types of Occupational Accidents during Motor and Circuit Assembly

During the process of assembling motors and circuits, many types of occupational accidents can occur due to the nature of the work and the work environment. One of the main risks is electric shock. Workers may come into contact with live electronic components or wires, especially when assembling and checking electrical connections. Failure to cut the power before working or not using proper protective equipment can lead to serious injuries.

In addition, handling small and sharp components during assembly can cause cuts or scratches. In particular, assembly tools such as screwdrivers or pliers can cause injury if not used carefully. This type of accident often occurs when workers are working quickly or not paying attention to safety procedures.

Furthermore, issues with working posture can also lead to musculoskeletal injuries. Assembling parts in hard-to-reach places or with incorrect posture can cause back pain or muscle strain. Working in a confined space or without adequate lighting can also increase the risk of accidents, as workers may not see details clearly or have difficulty with manipulations.

These accidents can be minimized by adhering to safety regulations, using adequate protective equipment, and ensuring the work environment is properly organized.

3. Causes of Occupational Accidents during Motor and Circuit Assembly

Occupational accidents during the assembly of motors and circuits often stem from various causes, reflecting a combination of technical factors and working conditions. A common cause is a lack of training and safety awareness. If workers are not adequately trained on assembly procedures or do not understand how to handle electronic components safely, they are at risk of exposure to high voltage or working with unsafe tools.

Non-compliance with procedures and technical instructions also contributes to accidents. Errors in assembly, such as incorrect connections or improper installation of components, can lead to electrical failures or equipment damage. These mistakes often occur when workers are in a hurry or do not pay attention to small details.

An inadequate work environment is also an important factor. Working in conditions with insufficient lighting or in a cramped space increases the risk of accidents. For example, poor lighting can make it difficult for workers to see small details, leading to assembly errors or injuries from sharp objects.

Finally, the improper use of tools or lack of regular maintenance is also a cause of accidents. Damaged or poorly maintained assembly tools can cause unexpected failures, increasing the risk of accidents for workers. Therefore, adhering to safety procedures and ensuring good working conditions are very important to minimize risks.

4. Preventive Measures for Occupational Accidents during Motor and Circuit Assembly

To prevent occupational accidents during the assembly of motors and circuits, implementing safety measures is extremely important. First, workers need to be thoroughly trained on assembly procedures, techniques for handling electronic components, and safety measures. Training should include the use of personal protective equipment such as electrical insulating gloves, safety glasses, and dust masks to protect against potential hazards.

The assembly process must also adhere to specific technical instructions and work procedures. Workers should cut the power before handling electronic components and ensure that electrical connections are made correctly to avoid the risk of electric shock. In addition, assembly tools must be regularly inspected and maintained to ensure they are in good working order and do not pose a danger during use.

The work environment needs to be organized, tidy, and well-lit to minimize risks. Workers should work in a comfortable space and ensure the work area is always clean, without obstructions or debris that could cause accidents.

Finally, it is necessary to establish an emergency response procedure to deal with accident situations. All workers must know how to handle incidents and perform basic first aid, and have rescue equipment readily available and easily accessible. Full implementation of these measures will help create a safe work environment and protect the health of workers.

5. Occupational Safety Regulations for Motor and Circuit Assembly

When assembling motors and circuits, adherence to occupational safety regulations is very important to protect workers and ensure work efficiency. First, all workers must be fully trained on assembly procedures and related safety measures. This training includes the use of personal protective equipment such as electrical insulating gloves, safety glasses, and masks, as well as safe assembly techniques.

Regulations require workers to cut the power and check the condition of the equipment before performing any operations with electronic components. Throughout the assembly process, the proper use of tools and ensuring they are in good condition is mandatory to avoid unwanted incidents.

In addition, the work area needs to be kept clean and tidy. Workers should not work in a confined space or with poor lighting, as this can increase the risk of accidents. All materials and tools should be arranged properly to minimize the risk of trips or impacts.

Regulations also require quality and safety checks to be performed after assembly is complete. Any faults detected during inspection must be corrected immediately. Finally, the procedure must have emergency response instructions available, including how to perform first aid and contact medical services in case a serious accident occurs. Strict adherence to these regulations not only protects workers’ health but also enhances the product’s efficiency and reliability.

Take tests at occupational safety centers to obtain an occupational safety certificate. This will ensure that workers grasp safety knowledge and have valid certification for employment.

6. Handling Emergency Occupational Accident Situations during Motor and Circuit Assembly

When an occupational accident occurs during the assembly of motors and circuits, handling the emergency situation quickly and effectively is extremely important. First, workers must immediately stop all activities and report the incident to their supervisor or the occupational safety department. If someone is electrocuted, the power source must be immediately cut to prevent further contact. In the case of a mild electric shock, use an insulating device to separate the victim from the power source without causing further danger to oneself.

Next, assessing the victim’s condition is necessary. If the victim is unresponsive or shows signs of not breathing, perform basic first aid immediately, including cardiopulmonary resuscitation (CPR) if needed. Call for emergency medical services and provide detailed information about the victim’s condition and the location of the accident to ensure timely assistance.

In the case of other wounds or injuries, perform basic first aid measures such as bandaging the wound and immobilizing the injured area. Ensure the victim is kept stable and comfortable until medical assistance arrives.

Finally, investigating the cause of the accident is an important step to prevent similar incidents in the future. Review work procedures, environmental conditions, and equipment to identify weaknesses and implement necessary improvement measures. A detailed incident report will help improve occupational safety and protect the health of all workers in the future.

IV. Occupational Safety and Health for Mechanical Parts Assembly Staff

1. Characteristics of Mechanical Parts Assembly Work

The work of attaching mechanical parts in the production of handheld massagers requires high precision and attention to every detail. This process includes assembling important parts such as the massage head, handle, and adjustment components into the machine’s casing. Each mechanical part must be installed in the correct position and securely connected to ensure the machine operates effectively and durably.

Technicians must inspect each part before assembly to confirm it meets quality standards. This process requires skill and care, as any error in assembly can affect the performance of the massager or cause failures during use. Using precise tools and adhering to pre-defined assembly procedures is very important to ensure the synchronicity and safety of the final product.

The work also needs to be performed in a clean and well-organized environment to minimize the risk of errors during assembly. This helps ensure that all parts are attached to the machine correctly, while also ensuring the final product achieves the desired durability and performance.

2. Types of Occupational Accidents during Mechanical Parts Assembly

During the process of attaching mechanical parts such as the massage head, handle, and adjustment components to the machine, many types of occupational accidents can occur if safety procedures are not followed correctly. One of the common accidents is being cut or punctured by sharp tools or the sharp edges of mechanical parts. These accidents often occur when workers are not careful in their operations or when tools are not properly maintained.

Impact accidents are also a major hazard. During assembly, mechanical parts can be dropped or collide with other parts, causing injury to workers. This often happens when workers are in a confined space or do not have enough light to see accurately.

Furthermore, electric shock accidents can occur if workers come into contact with improperly assembled electronic components or if protective equipment is not used. Incorrect assembly can lead to exposed or short-circuited electrical systems, posing a serious risk of electric shock.

Finally, fatigue or stress can also reduce concentration and increase the risk of accidents. Workers who work for too long without rest may have difficulty controlling tools and equipment, leading to unwanted occupational accidents. To minimize these risks, adherence to safety regulations and thorough training for workers are essential.

3. Causes of Occupational Accidents when Attaching Mechanical Parts

Occupational accidents during the process of attaching mechanical parts, such as the massage head, handle, and adjustment components, often stem from various causes. A major cause is the improper use of tools or damaged tools. When tools such as wrenches, screwdrivers, or assembly aids are not maintained or used correctly, they can cause accidents like cuts, punctures, or impacts.

Another cause is shortcomings in the assembly process. If assembly instructions are unclear or workers are not adequately trained on the process, it can lead to incorrect attachment of parts. Incorrect assembly not only reduces the product’s efficiency but can also cause accidents during work.

Unsafe working conditions also contribute to accidents. A cramped workspace, poor lighting, or a cluttered environment can increase the risk of accidents. When workers cannot see clearly or move conveniently, the risk of incidents increases.

Finally, the human factor also plays an important role. Fatigue, stress, or lack of concentration can reduce a worker’s ability to work safely. When workers cannot maintain the necessary focus or work for too long without rest, they may make mistakes or have accidents due to a lapse in concentration. Better training measures and working conditions can help minimize these causes and enhance occupational safety.

4. Preventive Measures for Occupational Accidents when Attaching Mechanical Parts

To prevent occupational accidents when attaching mechanical parts such as the massage head, handle, and adjustment components to the machine, implementing safety measures is very important. First, workers need to be thoroughly trained on the assembly process and the safe use of tools. Training helps them master the assembly steps and recognize potential risks, thereby performing the work with the necessary care.

Using safe tools and equipment, and performing regular maintenance is another important measure. Assembly tools should be checked regularly to ensure they are in good working order and do not pose a danger. Damaged or worn tools should be replaced immediately to avoid causing accidents.

Working conditions also need to be improved to minimize risks. Ensure the work area is clean, tidy, and well-lit so that workers can work safely. Organizing the workspace properly helps workers move conveniently and reduces the risk of impact or accidents due to foreign objects.

Furthermore, establishing and maintaining a safe work process is also very important. Workers should be encouraged to take regular breaks to reduce fatigue and stress, keeping their mind and body in the best possible condition. Applying these preventive measures not only helps protect the health of workers but also improves work efficiency and the quality of the final product.

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

5. Occupational Safety Regulations when Attaching Mechanical Parts

When attaching mechanical parts such as the massage head, handle, and adjustment components to the machine, adherence to occupational safety regulations is essential to ensure the safety of workers and production efficiency. First, workers must be fully trained on the assembly process and related safety regulations. Understanding the steps and using the correct tools not only helps increase work efficiency but also minimizes the risk of accidents.

Regulations on personal protective equipment are another important factor. Workers must use protective gear such as cut-resistant gloves, safety glasses, and safety shoes to protect themselves from potential hazards during work. This protective equipment must be regularly inspected and replaced to ensure it is always in the best condition.

In addition, the work area must be kept clean and tidy. Tools and components should be neatly arranged to avoid tripping or obstruction during work. Ensuring adequate lighting and good ventilation are also important factors in reducing the risk of accidents.

Finally, implementing regulations on the maintenance and inspection of tools and equipment is indispensable. Tools must be regularly inspected and maintained to ensure they operate correctly and safely. These regulations not only help protect the health of workers but also ensure the quality and efficiency of the production process.

6. Handling Emergency Occupational Accident Situations when Attaching Mechanical Parts

When an occupational accident occurs during the process of attaching mechanical parts like the massage head, handle, and adjustment components, handling the emergency situation quickly and accurately is very important. First, the person involved in the accident or those nearby should immediately stop work and ensure the work area is cleared or isolated to prevent further accidents. Assessing the victim’s condition is the next step; if the victim is seriously injured, emergency medical services should be called immediately.

In the case of an open wound, basic first aid steps should be taken, such as controlling bleeding with a clean bandage and direct pressure on the wound. If the victim has a fracture or signs of a serious injury, they should not be moved unless necessary to save their life, and medical assistance should be called.

When the accident involves electricity, the power source should be cut immediately if possible, and the victim should not be touched if it is uncertain that the power has been disconnected. Ensure that all tools and equipment are inspected and repaired to prevent the recurrence of accidents.

Finally, after handling the emergency situation, an investigation into the cause of the accident should be conducted to learn lessons and improve work processes. An accident report and corrective measures should also be implemented to enhance occupational safety in the future.

V. Occupational Safety and Health for Functionality Testing Staff

1. Characteristics of Functionality Testing Work

In the functionality testing stage of the massager, the work requires meticulousness and precision to ensure that all functions of the machine operate as designed. The massager must be comprehensively tested, from its mechanical parts to its electronic components, to confirm that all functions such as massage modes, intensity adjustments, and other features operate stably.

The testing process usually begins by checking the mechanical and electronic connections to ensure there are no issues like looseness or incorrect connections. Then, the machine’s adjustment and setting functions are tested to ensure they respond accurately to commands from the control panel. The machine needs to be tested with different massage modes to ensure that every mode operates smoothly and achieves the expected effectiveness.

These tests not only help detect technical faults but also ensure that the final product meets quality and safety standards. A malfunctioning massager can not only reduce its effectiveness but may also pose a danger to the user. Therefore, functionality testing is a crucial step in the production process to ensure that the product meets quality and safety requirements.

2. Types of Occupational Accidents during Functionality Testing

During the functionality testing of a massager, many types of occupational accidents can occur due to interaction with mechanical and electronic equipment. Some common accidents include electric shock, mechanical injuries, and accidents from contact with the machine’s moving parts.

Electric shock is a major risk when testing a massager, especially if the equipment is not properly maintained or there is a fault in the electrical insulation. When working with electronic equipment, workers need to be careful to avoid contact with live components while the machine is operating.

Mechanical injuries can occur if a worker gets pinched, struck, or caught in the machine’s moving parts. Improper contact with mechanical parts such as rotating shafts or rollers can lead to serious injuries like fractures or soft tissue damage.

In addition, accidents can also occur due to negligence in testing operations, such as dropping or tipping the equipment when moving it, or being injured while handling small components. To minimize the risk, workers need to be thoroughly trained on safe testing procedures and use appropriate personal protective equipment.

3. Causes of Occupational Accidents during Functionality Testing

Occupational accidents during the functionality testing of massagers often stem from several main causes. One of the leading causes is a lack of safety in handling electronic equipment. Massagers can have complex electronic and mechanical parts, and if the electrical connections are not properly maintained or there is a fault in the electrical insulation, the risk of electric shock is very high.

In addition, equipment that is not regularly maintained can also lead to unexpected incidents. Worn or damaged mechanical parts can cause accidents such as pinching or impact during testing. When moving parts are not tightly controlled, workers can be injured by collision or being caught in these parts.

Lack of experience or inadequate training also contributes to occupational accidents. If workers are not fully instructed on safe testing procedures or do not know how to use personal protective equipment, they are more likely to have accidents. Finally, negligence in testing operations and a lack of attention can lead to incidents such as dropping or tipping the equipment, causing injury. Improving training processes, equipment maintenance, and adherence to safety measures are very important to minimize occupational accidents in this stage.

4. Preventive Measures for Occupational Accidents during Functionality Testing

To prevent occupational accidents when testing the functionality of a massager, implementing safety measures is very important. First, workers need to be thoroughly trained on testing procedures and the use of safety equipment. Ensuring they understand how to work with electronic and mechanical equipment, as well as how to use personal protective equipment, is the first step to minimizing risks.

Next, regular maintenance and inspection of equipment are necessary to detect and repair potential problems early. Mechanical and electronic parts must be properly inspected and maintained to ensure they operate stably and safely. During testing, workers should use personal protective equipment such as insulating gloves and safety glasses to protect themselves from potential hazards.

In addition, safe work procedures should be established, including turning off the power when performing tests or maintenance and ensuring that moving parts are not active while workers are operating. Ensuring the work area is clean and free of obstacles also helps to minimize the risk of accidents due to collisions or slips and falls. Finally, conducting regular safety checks and implementing rapid response measures in case of an incident are also important factors in protecting the health and safety of workers.

5. Occupational Safety Regulations for Functionality Testing

When testing the functionality of a massager, adherence to occupational safety regulations is very important to ensure the safety of workers and equipment. Before starting the testing process, workers need to perform safety preparation steps, including checking personal protective equipment such as gloves, safety glasses, and electrical insulating equipment.

The equipment must be powered off and disconnected from electricity before conducting tests to avoid the risk of electric shock. Workers must ensure that the work area is kept clean and free of obstacles, to minimize the risk of slips, trips, or collisions during operation. The tools and equipment used in the testing process also need to be regularly inspected to ensure they operate correctly and do not pose a danger.

In addition, workers should be fully trained on the functionality testing process and response steps in case of an incident. It is very important to document incidents and maintain equipment after each test to monitor the machine’s condition and prevent potential problems. Adherence to safety regulations not only helps protect the health of workers but also maintains the operational efficiency of the equipment.

6. Handling Emergency Occupational Accident Situations during Functionality Testing

When an occupational accident occurs during the functionality testing of a massager, a quick and accurate response is a decisive factor in minimizing the consequences. First, workers should immediately turn off the power to the device to prevent the risk of electric shock or fire. If the accident causes injury, first aid should be administered on the spot, such as bandaging a wound or performing basic emergency techniques, while immediately calling the medical team or emergency services.

For situations involving electric shock, workers should not have direct contact with the victim but must disconnect the power source before approaching. For situations involving injury from machinery, the machine’s operation should be stopped immediately, and the incident reported to a supervisor or the safety management department to investigate the cause and implement corrective measures.

After handling the emergency situation, a detailed incident report should be prepared, and the occupational safety records updated to improve preventive procedures in the future. Re-evaluating safety measures and retraining workers on emergency situations are also an important part of enhancing occupational safety. These steps not only help resolve the current situation but also help prevent future accidents.