Occupational Safety Document for Infrared Stove Manufacturing

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The occupational safety document for infrared stove manufacturing provides detailed guidance on measures to protect health and safety during the manufacturing process. Explore now to ensure a safe and effective working environment!

PART I: CURRENT STATE OF SAFETY IN THE INFRARED STOVE 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 Infrared Stove Manufacturing Plants

In the infrared stove manufacturing industry, ensuring occupational safety is extremely important to prevent accidents. Below are some typical accidents that occur in infrared stove manufacturing plants:

1. Burns and Injuries from High Temperatures: During the assembly and testing of infrared stoves, workers can get burned from direct contact with hot parts. These accidents often happen when safety procedures are not fully followed and appropriate protective gear is lacking.
2. Accidents due to Electrical Equipment: Electrical incidents, such as short circuits or electrical leaks, are a major risk in infrared stove manufacturing plants. These incidents can lead to serious electric shocks if the electrical system is not properly maintained.
3. Injuries from Machinery and Tools: Using machinery and tools improperly or without maintenance can cause serious mechanical injuries. For example, incidents with cutting or welding machines can lead to deep cuts or burns.
4. Air Quality Issues: During production, dust and toxic fumes from materials can cause respiratory problems if there is no effective ventilation system and employees do not wear protective masks.

These accidents highlight the importance of implementing strict occupational safety measures. To protect the health and safety of workers, factories need to invest in safety training, equipment maintenance, and provide adequate protective gear.

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PART II: OCCUPATIONAL SAFETY AND HEALTH WHEN WORKING IN AN INFRARED STOVE MANUFACTURING PLANT

I. Occupational Safety and Health for Material Handling and Quality Control Staff

1. Job Characteristics of Material Handling and Quality Control

The work of Material Handling and Quality Control in an infrared stove manufacturing plant plays a crucial role in the production process. The main raw materials, including electronic components, stainless steel, and insulating materials, are imported from suppliers and transported to the factory to begin the manufacturing process.

Here, the raw materials must undergo a strict quality inspection process. First, the parts of electronic components and stainless steel are checked for accuracy and durability, ensuring they meet the necessary technical standards. At the same time, insulating materials must also be tested to determine their heat resistance and insulating properties. This work not only helps detect defects from the beginning but also ensures that all raw materials meet standards before being put into production. This contributes significantly to maintaining the quality of the final product and preventing incidents during the assembly and use of the infrared stove.

2. Types of Occupational Accidents during Material Handling and Quality Control

During the process of Material Handling and Quality Control, occupational accidents can occur due to various factors. Workers often have to handle electronic components, stainless steel, and insulating materials, all of which can pose risks if not managed correctly. For example, when transporting and handling stainless steel, heavy materials can cause mechanical injuries such as muscle strains, dislocations, or fractures if lifting equipment or safe techniques are not used.

Electronic components, especially those with sharp or fragile surfaces, can cause cuts or impact injuries. Insulating materials, although not as dangerous as other materials, can cause respiratory problems due to dust or chemicals if not handled properly. Besides, the quality inspection of raw materials also poses a risk of accidents if safety procedures are not followed, which can lead to incidents like fires, explosions, or exposure to toxic substances. To minimize risks, strict occupational safety measures must be implemented and workers must be fully trained on the potential hazards in their work process.

3. Causes of Occupational Accidents during Material Handling and Quality Control

Occupational accidents during the process of Material Handling and Quality Control often stem from many different causes. One of the main causes is the failure to comply with safety procedures in transporting and handling materials. When workers handle stainless steel and electronic components, not using the correct lifting equipment or lacking synchronized coordination can lead to incidents like slips, trips, falls, or mechanical injuries. In addition, a lack of training in safety techniques also increases the risk of accidents, especially when handling materials with specific characteristics like insulating materials, which can cause irritation or dust affecting health.

It should also be noted that non-optimal working conditions, such as insufficient lighting, cramped workspaces, or lack of appropriate protective measures, can all contribute to an increased risk of accidents. Furthermore, shortcomings in quality control and checking the condition of materials before production can lead to unexpected incidents like equipment failure or defective products, directly impacting occupational safety. Therefore, strict adherence to safety procedures and regular training for employees are very important to minimize accidents during the Handling and Quality Control process.

4. Preventive Measures for Occupational Accidents during Material Handling and Quality Control

To prevent occupational accidents during the process of Material Handling and Quality Control, a series of effective safety measures must be applied. First and foremost, employee training is crucial. Workers need to be fully trained on safety procedures for transporting, handling, and inspecting materials such as stainless steel, electronic components, and insulating materials. Using personal protective equipment, such as cut-resistant gloves, safety glasses, and non-slip shoes, helps minimize risks when in contact with sharp-edged or heavy materials.

In addition, regular inspection and maintenance of lifting equipment are necessary to ensure they operate correctly, thereby reducing the risk of accidents due to equipment failure. It is also necessary to maintain safe working conditions by ensuring the work area is always well-lit, uncluttered, and tidy to avoid collisions and slips.

Finally, the quality inspection process for raw materials before they enter production must also be carried out carefully to detect any potential defects or issues early on, helping to prevent unwanted incidents during the production process. Implementing these measures not only protects the health and safety of workers but also enhances the efficiency and quality of the production process.

5. Occupational Safety Regulations for Material Handling and Quality Control

When Handling and Controlling the Quality of Raw Materials entering the factory, complying with occupational safety regulations is extremely important to protect the health and safety of workers. First, all workers must be trained on safety procedures related to the transportation and handling of materials such as stainless steel, electronic components, and insulating materials. Regulations require the use of appropriate personal protective equipment, including cut-resistant gloves, safety glasses, and non-slip shoes, to minimize the risk of accidents.

Work areas must be kept clean, tidy, and well-lit to prevent the risk of slips, trips, or collisions. The quality inspection process for raw materials before they are put into production must also be carried out according to strict regulations to detect problems early and prevent incidents.

In addition, regular inspection and maintenance of lifting and transport equipment is a mandatory requirement to ensure the equipment always operates effectively and safely. Regulations also require companies to implement fire prevention and fighting measures and be prepared to respond to emergency situations to ensure a safe working environment. Full compliance with these regulations not only helps protect workers’ health but also ensures the production process runs smoothly and effectively.

6. Handling Emergency Occupational Accident Situations during Material Handling and Quality Control

REGISTER FOR OCCUPATIONAL SAFETY TRAINING SERVICES

II. Occupational Safety and Health for Component Processing Staff

1. Job Characteristics of Component Processing

Component processing is a crucial step in the manufacturing process, where components are processed by precision machinery to achieve the required dimensions and shapes. In this stage, metal and plastic parts undergo various processes such as cutting, bending, and surface treatment. First, components are cut to precise dimensions using cutting machines, ensuring the parts meet technical standards. Then, the components are often bent to create specific shapes, which requires high precision so as not to reduce the quality of the product. Finally, the surface treatment stage is carried out to enhance aesthetics and durability, while also cleaning and removing any defects on the component’s surface.

Component processing requires meticulous attention and precise adjustment of machinery to ensure the components meet technical standards. At the same time, workers need to have the necessary knowledge and skills to operate the equipment and perform the processing steps effectively. Precision in each processing stage not only ensures the quality of the final product but also affects its performance and durability during use.

2. Types of Occupational Accidents during Component Processing

During the component processing stage, occupational accidents can occur due to various reasons, especially when working with precision machinery and materials like metal and plastic. One of the common accidents is being cut or hit by contact with sharp cutting blades or bending equipment, causing serious injuries. These accidents often happen when workers do not follow safety procedures or when the equipment is not properly maintained.

Additionally, during the processing stage, metal or plastic dust can cause eye and respiratory irritation if appropriate protective equipment is not used. Handling hot materials or high pressure also poses a risk of burns or injuries from direct contact with high temperatures or pressure from machinery. Furthermore, errors in the machine adjustment process can lead to mechanical failures, such as machinery getting jammed or breaking, which can cause accidents for the operator.

To minimize these risks, strict safety regulations must be followed, personal protective equipment must be used, and it must be ensured that machinery is always maintained and inspected periodically. Careful attention and precise operating skills are very important to protect worker safety during the component processing stage.

3. Causes of Occupational Accidents during Component Processing

Occupational accidents during component processing often stem from various causes. One of the main reasons is the lack of adherence to safety procedures when operating machinery. Cutting, bending, and surface treatment machines often have sharp blades and strong impact forces; if not adjusted correctly or maintained regularly, they can cause incidents such as jamming or failure, leading to accidents for workers.

Furthermore, not using adequate personal protective equipment, such as cut-resistant gloves, safety glasses, and ear protection, can increase the risk of injury from direct contact with machine parts or dust. Lack of training in machine operation techniques is also a significant cause, as workers who are not familiar with safety procedures may make operational errors, leading to accidents.

Other causes include substandard working conditions such as cramped workspaces or poor lighting, which make it difficult to control machinery and detect risks early. In particular, failing to perform regular maintenance and inspection of equipment can lead to mechanical failures or equipment breakdown, increasing the risk of accidents. To mitigate these risks, strict adherence to safety regulations and continuous training for employees are essential.

4. Preventive Measures for Occupational Accidents during Component Processing

To prevent occupational accidents during component processing, applying safety measures is crucial. Firstly, providing comprehensive training to workers on machine operation procedures and safety measures is essential. Employees need to understand how to use the equipment, from cutting to bending and surface treatment, while also mastering the rules for protecting themselves and their colleagues.

Using personal protective equipment is an indispensable measure. Workers should wear cut-resistant gloves, safety glasses, and non-slip shoes to minimize the risk of injury from contact with machine parts or hazardous materials. Besides, maintaining safe working conditions, including a spacious, well-lit, and obstacle-free workspace, helps workers easily control machinery and detect risks early.

Regular maintenance and inspection of machinery are also important factors. Ensuring that equipment is always in good working order and properly maintained helps prevent incidents and accidents due to equipment failure. Additionally, applying safety procedures in handling hot materials or materials that can cause irritation should also be emphasized. Adhering to these measures not only protects workers’ health but also enhances the efficiency and quality of the component processing process.

5. Occupational Safety Regulations for Component Processing

When processing components, adhering to occupational safety regulations is essential to ensure a safe and efficient working environment. The first regulation requires that workers be fully trained on machine operating procedures, from cutting to bending and surface treatment, along with the use of personal protective equipment such as cut-resistant gloves, safety glasses, and non-slip shoes. These procedures help protect workers from potential hazards like cuts, impacts, or exposure to metal dust.

The regulations also require maintaining safe working conditions, including ensuring the work area is well-lit and free of obstacles, helping workers to work safely and effectively. In addition, regular maintenance and inspection of machinery are mandatory to ensure the equipment is always in good working order and to minimize the risk of incidents.

To ensure compliance with these regulations, companies need to conduct regular inspections and safety assessments, while establishing effective incident reporting and handling procedures. Companies also need to implement fire prevention and fighting measures and be prepared for emergency situations. Adhering to occupational safety regulations not only protects workers’ health but also enhances production efficiency and product quality.

6. Handling Emergency Occupational Accident Situations during Component Processing

When an occupational accident occurs during component processing, timely emergency handling is crucial to minimize damage and protect workers’ health. As soon as an accident is detected, the first step is to immediately stop the operation of the relevant machinery and notify the medical team or the occupational safety management department for prompt intervention.

If the accident involves cutting, bending, or surface treatment, and a worker is injured, provide basic first aid quickly and, if necessary, take the victim to the nearest medical facility. For accidents involving metal dust or hot materials, ensure that the worker’s health is checked to detect respiratory problems or burns.

After handling the emergency, conducting an investigation into the cause of the accident is necessary to identify contributing factors and implement corrective measures. This may include improving work processes, maintaining machinery, and enhancing training for workers to prevent similar incidents in the future. A complete and clear report of the incident is necessary to ensure transparency and compliance with occupational safety regulations. Effectively managing emergency situations not only protects the health of workers but also maintains safety and efficiency in the work environment.

REGISTER FOR OCCUPATIONAL SAFETY TRAINING SERVICES

III. Occupational Safety and Health for Component Assembly Staff

1. Job Characteristics of Component Assembly

In the assembly of infrared stove parts, the processed components are combined to form the main parts of the product. The assembly process includes attaching heating elements, control panels, and electrical connection parts. This is a crucial step in the production process, requiring high precision and skill to ensure the components work together synchronously and effectively.

First, the heating elements are installed in a specific position on the cooker’s frame, ensuring they are securely fixed and correctly connected to the power source. Next, the control panel and other electronic components are mounted in appropriate positions, with connections made carefully to ensure the accuracy and reliability of the control system. Throughout the assembly process, workers need to pay attention to checking each step to detect any errors early and make necessary adjustments.

Precision in assembly not only affects the performance of the infrared stove but also ensures the safety and durability of the product. Therefore, adhering to the correct assembly process and techniques is very important to achieve high product quality and meet consumer requirements.

2. Types of Occupational Accidents during Component Assembly

During the assembly of infrared stove parts, several types of occupational accidents can occur if safety procedures are not followed correctly. One of the common types of accidents is injury from sharp components or hand tools. When assembling heating elements and other metal parts, workers can get cut or scratched from contact with the sharp edges of the components.

Electrical accidents are also a serious hazard in this process. Tasks involving electrical connections must be performed carefully, because failure to comply with safety regulations can lead to the risk of electric shock or short circuits, especially when working with wires and electronic devices.

In addition, accidents from impacts or falling objects can also occur, especially when moving large or heavy components. Not using support equipment such as stands or lifting tools correctly can lead to muscle or bone injuries.

To minimize the risk of accidents, it is necessary to ensure that workers are fully trained on safety measures and use appropriate personal protective equipment. At the same time, maintaining a clean and well-organized work environment also helps to reduce risks related to occupational accidents.

3. Causes of Occupational Accidents during Component Assembly

Occupational accidents during the assembly of infrared stove parts often occur for various reasons. A primary cause is a lack of attention and skill during the assembly process. When workers do not follow the correct procedures or lack experience, they may encounter problems such as installing components incorrectly or making improper electrical connections, leading to a risk of injury or electrical incidents.

A lack of maintenance and inspection of equipment also contributes to occupational accidents. Tools or machinery that are not properly maintained can break down or operate unstably, posing a danger to the user.

In addition, unsafe working conditions are also a significant cause. A cluttered, poorly lit, or inadequately spaced work environment can increase the risk of accidents, such as collisions or slips and falls. Not using or incorrectly using personal protective equipment also contributes to an increased risk of injury.

Finally, the lack of strict inspection and supervision processes during assembly can lead to potential problems being overlooked, causing accidents. To minimize these risks, it is necessary to have tight work procedures, regular equipment maintenance, and ensure safe working conditions.

4. Preventive Measures for Occupational Accidents during Component Assembly

To prevent occupational accidents during the assembly of infrared stove parts, applying safety measures is extremely important. First, workers need to be fully trained on the assembly process and safety regulations. This training includes the correct use of tools and personal protective equipment such as cut-resistant gloves, safety glasses, and non-slip shoes, helping to minimize the risk of injury.

In addition, maintaining safe working conditions is essential. The assembly area needs to be kept clean and well-organized to avoid accidents from impacts or slips and falls. It is necessary to ensure adequate lighting and workspace, and to regularly check machinery and tools to ensure they are in good and safe working order.

The assembly process should also be closely monitored to detect any incidents or errors early. Regular equipment inspection and maintenance procedures help to identify and fix problems before they cause an accident. Finally, implementing fire prevention and fighting measures and having an emergency response plan will help ensure worker safety in the event of an unexpected incident. These measures not only protect workers’ health but also enhance production efficiency and product quality.

5. Occupational Safety Regulations for Component Assembly

When assembling the parts of an infrared stove, complying with occupational safety regulations is a prerequisite for ensuring safety and efficiency at work. First, workers must be properly trained on the assembly process and specific safety measures for each stage, from attaching the heating elements to connecting the electronic parts.

The use of personal protective equipment such as cut-resistant gloves, safety glasses, and non-slip shoes is mandatory. Especially when working with sharp components or electrical equipment, workers need to ensure that this equipment is regularly inspected and maintained to avoid breakdowns or hazards.

The work environment must also be kept clean and well-organized. The assembly area must have adequate lighting and workspace, and necessary items must be arranged neatly to avoid impacts or slips and falls. The rule about not eating or drinking in the assembly area also helps to minimize the risk of accidents due to distraction.

Finally, incident reporting and handling procedures must be taken seriously. Workers must know how to immediately report incidents or accidents and have a clear emergency response plan to ensure safety in the event of an incident. Full compliance with these regulations not only protects the health of workers but also enhances the quality and efficiency of the assembly process.

Perform tests at occupational safety centers to obtain the occupational safety certificate. From there, workers will have a clear understanding of safety knowledge as well as a valid certification for their work.

6. Handling Emergency Occupational Accident Situations during Component Assembly

When an occupational accident occurs during the assembly of infrared stove parts, timely and effective handling is very important to minimize damage and protect workers’ health. First, it is necessary to immediately stop work and ensure that the accident area is isolated to prevent the situation from spreading or further incidents from occurring.

Injured workers should be given first aid immediately. If the accident involves electricity, the power source must be turned off immediately to prevent the risk of further electric shock. For wounds or injuries, use a basic first aid kit and immediately call the medical team or emergency services if necessary.

After providing first aid, it is necessary to report the accident to the manager or the occupational safety department to carry out investigation and handling steps. Detailed recording of the incident helps to identify the cause and apply preventive measures for the future.

At the same time, it is necessary to evaluate and inspect the equipment and work processes to ensure that the factors that caused the accident have been rectified. Propose improvement measures and retrain workers if necessary, to ensure that similar incidents do not happen in the future. Timely and correct handling not only helps protect workers’ health but also enhances occupational safety throughout the entire assembly process.

REGISTER FOR OCCUPATIONAL SAFETY TRAINING SERVICES

IV. Occupational Safety and Health for Inspection and Testing Staff

1. Job Characteristics of Inspection and Testing

In the inspection and testing phase, the products after assembly are thoroughly checked to ensure they function correctly and meet quality standards. This process includes a series of rigorous tests. First, the product must undergo performance testing to confirm that all functions work as designed, from checking the heating elements to the precise control of the control panel.

In addition, electrical safety testing is an indispensable step to ensure the product does not pose a risk of electric shock or fire. This includes checking electrical insulation and ensuring that all electrical connections are made correctly. Finally, durability testing of the parts is necessary to ensure the product can withstand harsh operating conditions and maintain stable performance over a long period.

The inspection and testing process not only ensures the product reaches the highest quality but also protects the safety of consumers and minimizes the possibility of incidents during use.

2. Types of Occupational Accidents during Inspection and Testing

During the inspection and testing of post-assembly products, many types of occupational accidents can occur. One of the common accidents is electric shock while performing electrical safety tests. This can happen when equipment is not properly insulated or when there is a problem with electrical connections. In addition, during performance testing, workers can be burned or injured by contact with hot parts or active heating elements.

Another type of accident is injury from broken testing equipment or tools. Improper handling or equipment failure can lead to injuries or cuts. While testing for durability, workers may face risks from broken or cracked parts, posing a danger to their eyes or skin.

All of these accidents can have serious consequences for the health and safety of workers, so applying protective measures and strict safety procedures is very important to minimize risks and protect employees throughout the product inspection and testing process.

3. Causes of Occupational Accidents during Inspection and Testing

Occupational accidents during product inspection and testing often stem from several main causes. A common cause is a failure to follow safety procedures, such as not correctly implementing electrical isolation measures during electrical safety tests. This can lead to a risk of electric shock if the equipment is not carefully inspected or if there is a problem with the electrical connections.

In addition, the improper use of testing equipment or tools is another major cause. For example, if workers handle hot parts or testing equipment incorrectly, it can cause burns or injuries. Malfunctions with testing equipment, such as broken or improperly maintained parts, can also lead to accidents.

The lack of personal protective equipment or substandard protective gear also contributes to an increased risk of accidents. Finally, a lack of training or understanding of the inspection and testing procedures can make workers unaware of potential dangers, increasing the likelihood of an accident. To minimize these risks, adhering to safety procedures, maintaining equipment, and providing adequate training for workers are essential.

4. Preventive Measures for Occupational Accidents during Inspection and Testing

To prevent occupational accidents during the product inspection and testing process, applying strict safety measures is crucial. First and foremost, workers need to be fully trained on the inspection and testing procedures, including safety techniques when working with electrical equipment and testing tools. This training must emphasize the importance of adhering to safety procedures and using appropriate personal protective equipment, such as electrical-resistant gloves and safety glasses.

Regular maintenance and inspection of testing equipment and tools is another important measure to ensure they operate safely. This helps to detect and rectify problems before they become a cause of accidents. When performing electrical safety tests, it must always be ensured that the equipment is properly isolated and the electrical connections are made correctly.

Providing protective equipment such as heat-resistant clothing, heat-resistant gloves, and protective masks helps to protect workers from the risks of burns or injuries. Finally, maintaining a tidy and clean work environment helps to minimize risks from obstacles or the danger of slips and falls. By implementing these measures, the risk of accidents can be significantly reduced, ensuring a safe inspection and testing process.

Complete the occupational safety and health training course to be issued an occupational safety card by the occupational safety training center to complete your work records as required.

5. Occupational Safety Regulations for Inspection and Testing

When performing inspection and testing of products after assembly, adhering to occupational safety regulations is of utmost importance to protect the health and safety of workers. First, workers must be fully trained and certified in safety procedures related to the use of inspection and testing equipment. This includes understanding potential hazards such as electric shock, burns, and mechanical accidents that may occur.

Regulations also require the use of personal protective equipment such as electrical-resistant gloves, safety glasses, and heat-resistant clothing throughout the work process. Testing equipment must be regularly inspected and maintained to ensure it functions correctly and does not pose a danger. Workers must always follow electrical isolation procedures when testing electrical devices and must ensure that electrical connections are made correctly.

The work environment needs to be kept clean and tidy, with hazardous areas clearly marked and appropriate protective measures in place. Regulations also require the implementation of clear emergency response measures that are fully communicated to all staff. Strict adherence to these regulations helps minimize the risk of accidents and ensures the product inspection and testing process is carried out safely and effectively.

6. Handling Emergency Occupational Accident Situations during Inspection and Testing

When an occupational accident occurs during the product inspection and testing process, handling the emergency quickly and effectively is very important to limit damage and protect the health of workers. First, upon discovering an accident, it is necessary to immediately stop work and report the incident to the manager or the company’s medical team. If the accident involves electricity, the power source must be cut off immediately and the incident area must be safely isolated to prevent further risk.

Next, administer basic first aid to the victim if possible, such as treating wounds or providing artificial respiration if necessary, until professional medical personnel arrive to assist. At the same time, record the details of the incident, including the time, location, cause, and actions taken, to serve for later investigation and reporting.

Finally, investigate the root cause of the accident to implement corrective and preventive measures in the future. Updating safety procedures and providing additional training for employees are also important steps to minimize the risk of recurrence. Handling accident situations in a methodical and effective manner not only protects the health of workers but also improves a safer working environment.

REGISTER FOR OCCUPATIONAL SAFETY TRAINING SERVICES

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PART III: Further Reference

1. Group 3 Occupational Safety Test

• Group 3 Occupational Safety Multiple Choice Test

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2. Price List for Occupational Safety Training Services

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3. Download documents

• Download occupational safety training document for infrared stove manufacturing
• Occupational safety training curriculum for infrared stove manufacturing
• Multiple choice test on occupational safety for infrared stove manufacturing