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Table of Contents

PART I: CURRENT STATE OF SAFETY IN THE HOT AND COLD WATER DISPENSER 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 Hot and Cold Water Dispenser Manufacturing Plants

In the manufacturing of hot and cold water dispensers, understanding common occupational accidents is very important for prevention and improving work safety. Below are some common accidents:

Electrical leakage incidents: One of the main risks in hot and cold water dispenser manufacturing plants is electrical leakage from poorly maintained equipment and wiring. These incidents can cause electric shock, burns, or even explosions.
Risks from high pressure: Hot and cold water systems often operate under high pressure. If not properly maintained or if equipment fails, the pressure can cause explosions, shatter parts, or cause serious injury to workers.
Injuries from equipment: During installation and maintenance, workers can get caught or hit by large machinery, leading to serious injuries such as broken bones, open wounds, or soft tissue damage.
Accidents due to heavy materials: Moving and installing large and heavy components of hot and cold water dispensers can cause injuries if occupational safety rules such as using support equipment or teamwork are not followed.
Risks from chemicals: During the manufacturing process, chemicals such as refrigerants or cleaning agents can cause dangerous reactions if not handled properly, leading to chemical burns or poisoning.

Identifying and understanding these risks helps improve safety measures and protect the health of workers, while also minimizing the risk of accidents in the factory.

PART II: OCCUPATIONAL SAFETY AND HEALTH WHEN WORKING IN A HOT AND COLD WATER DISPENSER MANUFACTURING PLANT

I. Occupational Safety and Health for Frame Fabrication and Machining Staff

1. Job Characteristics of Frame Fabrication and Machining

Frame fabrication and machining is one of the important stages in the production process of hot and cold water dispensers. This work begins with cutting steel or metal sheets to the required size and shape. Then, the parts are welded and connected accurately to form a sturdy and uniform machine frame.

The welding stage requires high precision to ensure the welds are even and strong, without leaks or defects. After welding, the machine frame is further processed to flatten surfaces, check for straightness, and finish small details. This not only ensures the frame has high durability and good load-bearing capacity but also helps it meet technical and safety standards. This stage plays a key role in creating a solid foundation for the entire machine system, contributing significantly to the performance and lifespan of the hot and cold water dispenser.

2. Types of Occupational Accidents during Frame Fabrication and Machining

During the frame fabrication and machining process, several common occupational accidents can occur due to the nature of the work, which requires precision and the use of heavy equipment. Electric shock is a serious risk, especially when working with welding machines and other electrical equipment. Workers can be electrocuted if they do not follow safety rules or when equipment is faulty.

Injuries from impact or cuts are also common risks when using metal cutting machines and fabrication tools. Deep cuts, collisions with sharp parts, or machinery can cause serious injuries. Furthermore, workers are also at risk of falling or being crushed by heavy objects during the transportation and installation of the machine frame. These accidents can lead to broken bones, dislocations, or soft tissue damage. To minimize these risks, adhering to safety procedures, using protective equipment, and providing safety skills training for workers are essential.

3. Causes of Occupational Accidents during Frame Fabrication and Machining

Occupational accidents during the frame fabrication and machining process often stem from several main causes related to working conditions and the production process. First, the use of machinery such as cutting machines, welding machines, and fabrication tools, if not properly maintained or operated with the correct technique, can lead to incidents. Equipment failure or unsafe operation can cause serious accidents.

Second, the lack of personal protective equipment such as gloves, safety glasses, and fire-resistant clothing is also a common cause. This protective equipment is very important in protecting workers from risks such as cuts, welding, and contact with hot or sharp materials.

Third, a poorly arranged work environment, such as an uneven floor or a lack of protection when working at heights, can increase the risk of falls or impacts. Finally, a lack of training and awareness of occupational safety also plays an important role. When workers are not fully trained on safety rules and the risks associated with the job, the likelihood of an accident is higher. To minimize these causes, maintaining equipment in good condition, using full protective gear, and providing regular safety training are crucial.

4. Measures to Prevent Occupational Accidents during Frame Fabrication and Machining

To prevent occupational accidents during the frame fabrication and machining process, applying safety measures is extremely important. First, regular maintenance and thorough inspection of equipment such as cutting and welding machines are necessary to ensure they operate stably and safely. Workers need to be properly trained on equipment usage procedures, incident handling, and accident prevention measures.

Furthermore, the use of full personal protective equipment such as gloves, safety glasses, and fire-resistant clothing helps minimize risks from contact with hot, sharp materials or when working with machinery. Ensuring a clean and tidy work environment, with well-organized work areas, is also an important factor to avoid accidents due to slips or collisions.

In addition, establishing safe work procedures, including specific technical instructions and protective measures, helps workers to be more aware of risks and how to avoid them. Enhanced supervision and regular inspections also help to detect and promptly address potential risks. Through the combination of these measures, the risk of accidents in the frame fabrication and machining stage can be effectively minimized.

5. Occupational Safety Regulations for Frame Fabrication and Machining

During the frame fabrication and machining process, adhering to occupational safety regulations is essential to protect the health and ensure the safety of workers. The regulations start with the mandatory use of personal protective equipment, such as gloves, safety glasses, and fire-resistant clothing, to minimize risks from contact with sharp materials and high temperatures. In particular, when working with welding and cutting machines, workers must wear eye protection and welding masks to avoid dust and sparks.

In addition, machinery must be regularly inspected and maintained to ensure they operate stably and do not pose a danger during use. Following technical instructions when operating machines is also an important regulation, helping to avoid unwanted incidents.

Furthermore, the work area must be organized and tidy, without scattered materials and tools, to minimize the risk of slips or collisions. Workers also need to be fully trained on safety procedures and how to respond in emergency situations. Adhering to these regulations not only protects the health of workers but also ensures the quality and efficiency of the production process.

6. Handling Emergency Occupational Accident Situations during Frame Fabrication and Machining

When an occupational accident occurs during the frame fabrication and machining process, timely and effective handling of the emergency situation is crucial to minimize damage and protect the health of workers. First, upon discovering an accident, workers should immediately stop all machine operations and notify the relevant departments, including management and the emergency response team. This ensures that timely intervention is carried out, while also reducing the risk of the accident spreading.

If the accident involves an electric shock, the power source should be quickly disconnected to prevent the risk of further electrocution or fire. In cases of injury from contact with sharp objects or equipment, basic first aid such as bandaging the wound and keeping the victim calm while waiting for professional help is necessary. For more serious issues, such as burns or gas poisoning, emergency medical services should be called immediately, and basic first aid measures such as cooling the burn or moving the victim to a well-ventilated area should be performed.

Finally, after the incident is handled, reviewing and analyzing the cause of the accident is necessary to improve work processes and enhance safety measures, aiming to prevent similar incidents in the future. Good preparation for emergency situations not only helps protect workers’ health but also enhances safety management efficiency in the factory.

II. Occupational Safety and Health for Cooling System Installation Staff

1. Job Characteristics of Cooling System Installation

Installing the cooling system is a crucial stage in the manufacturing process of a hot water dispenser, requiring high precision and care. This job begins by setting up components like the compressor, evaporator, and pipes into the prepared machine frame. These components need to be assembled and connected accurately to ensure optimal cooling performance.

The installation process includes adjusting the position of the compressor and evaporator to fit technical and design requirements. The pipes need to be securely connected to prevent leaks and ensure the containment of the refrigerant. In particular, checking the welds and pipe connections is very important, as any issue at this stage can affect the cooling performance and durability of the entire system.

In addition, the installation process also requires checking the electrical components and control system to ensure they operate in sync and effectively. Precision in every installation step not only helps achieve optimal performance but also contributes to the safety and reliability of the final product.

2. Types of Occupational Accidents during Cooling System Installation

During the cooling system installation process, many types of occupational accidents can occur due to the nature of the work, which requires precision and handling of heavy equipment and electrical systems. A major risk is accidents from impact or falling heavy objects when workers handle components like compressors and evaporators. These components are often large, and if not lifted correctly, can cause serious injuries to the installer.

Electrical accidents are also a major hazard when connecting the electrical components of the cooling system. Contact with uninsulated wires or unstable electrical circuits can lead to electric shock. This risk is often present if workers do not follow electrical safety regulations or when protective equipment is not used.

In addition, working in confined spaces or at heights can also cause accidents. Workers may fall or collide with obstacles while moving in the installation area, leading to injuries. To minimize these situations, adhering to occupational safety regulations, using personal protective equipment, and providing full training to workers are essential.

3. Causes of Occupational Accidents during Cooling System Installation

Occupational accidents during the cooling system installation process usually stem from several main causes related to working conditions and the installation process. A common cause is a lack of safety measures when working with heavy components like compressors and evaporators. Lifting and moving large components, if not done correctly, can lead to injuries, especially when lifting support equipment is not used.

Another cause is inconsistency in the electrical system, where wires are not properly installed or electrical connections are unstable. This can lead to the risk of electric shock for workers, especially when they are in direct contact with the electronic parts of the cooling system without appropriate protective measures.

The work environment also plays an important role; working in confined spaces or at heights without necessary support or protective equipment can cause accidents due to falls or impacts. Finally, a lack of training and knowledge about the complete installation process can lead to errors in the work, increasing the risk of accidents. To minimize these causes, implementing strict safety procedures, using personal protective equipment, and training workers are crucial.

4. Measures to Prevent Occupational Accidents during Cooling System Installation

To prevent occupational accidents during the installation of the cooling system, applying safety measures is crucial. First, using personal protective equipment such as gloves, safety glasses, and safety harnesses when working at heights or with heavy components helps minimize the risk of injury. Workers should be properly trained in installation techniques and safety regulations, including how to use lifting equipment correctly and safety measures when working with electrical systems.

Ensuring that components are transported and installed correctly is essential. A detailed plan for moving and installing heavy components, using necessary lifting and support equipment to avoid accidents from impacts or falls, is required. At the same time, thoroughly checking all electrical and system connections before operation helps prevent electrical risks and related incidents.

In addition, organizing the work area neatly, without obstacles, and ensuring adequate workspace helps reduce the risk of falls and collisions. Finally, conducting regular safety inspections and monitoring the work will help detect potential hazards early and adjust safety measures. These solutions, along with a focus on safety nutrients, will help protect health and ensure operational efficiency during the installation of the cooling system.

5. Occupational Safety Regulations for Cooling System Installation

When installing a cooling system, adhering to occupational safety regulations is crucial to protect the health and ensure the safety of workers. First, all workers involved in the installation process must be fully trained in installation techniques and safety regulations related to handling components such as compressors, evaporators, and pipes. The training includes instructions on using personal protective equipment like gloves, safety glasses, and safety harnesses, as well as procedures for moving and installing heavy components.

Equipment and machinery must be inspected and maintained regularly to ensure they operate correctly and do not pose a danger during use. Ensuring that all electrical and mechanical connections meet standards and show no signs of damage is an important part of the installation process.

The installation must be carried out according to a detailed plan, with safety measures applied at every step of the work. The work area must be organized and tidy, free of obstacles, and have adequate lighting to reduce the risk of accidents from collisions or slips. Lifting equipment must be used to avoid injuries related to lifting or moving heavy components.

Finally, regulations for pre-operation and regular inspection of the entire system during use are essential to ensure optimal performance and prevent safety incidents.

6. Handling Emergency Occupational Accident Situations during Cooling System Installation

When an occupational accident occurs during the installation of the cooling system, handling the emergency situation promptly and accurately is crucial to minimize injuries and ensure worker safety. First, upon discovering an accident, immediately stop all work and cut off the power to prevent the risk of electricity or explosion. Ensure that the accident area is announced to colleagues and emergency support sources so they can access and assist.

If the accident involves serious injuries such as broken bones or severe trauma, perform basic first aid and keep the victim in a stable position until medical services arrive. For electrical cases, do not touch the person directly but use an insulated or non-conductive tool to handle it.

Workers should be trained in basic first aid procedures and emergency response solutions to be able to handle situations quickly and effectively. After handling the issue, a detailed report of the incident should be made to analyze the cause and improve preventive measures in the future, while also conducting inspections and monitoring the work process to resolve similar incidents in the future.

III. Occupational Safety and Health for Control and Electronics Assembly Staff

1. Job Characteristics of Control and Electronics Assembly

The assembly of the control and electronics unit in a cooling system is an essential technological stage that ensures the precise performance and functionality of the machine. This job involves assembling the control connection system, control panel, and other important electronic controls. Electronic components, such as temperature sensors, processors, and circuit board controls, must be installed correctly to ensure that the temperature regulation system operates effectively and stably.

The installation process requires high attention to detail, as any error in connection or installation can lead to operational failure or reduced machine performance. The wiring and connections need to be technically checked to ensure there are no electrical issues, and that all electrical devices are securely mounted and in the correct position.

The precision of the assembly frame not only affects the ability to regulate temperature but also relates to the safety and reliability of the entire system. Therefore, employees need to follow technical instructions and quality standards, and perform quality control checks to ensure that the control unit and electronic components operate as expected.

2. Types of Occupational Accidents during Control and Electronics Assembly

During the assembly of the control and electronics unit, many types of occupational accidents can occur if safety solutions are not followed. A common type of accident is electric shock when working with electronic or incorrectly connected components. This can happen when workers do not technically inspect the electrical system before assembly or when they do not use appropriate protective equipment.

Accidents from impact or cuts can also occur when working with sharp circuit boards and electronic components or when moving heavy equipment. Workers can be injured by not using appropriate tools or not applying comprehensive work techniques when handling situations.

The risk of slipping is also an issue if the work area is not kept clean and tidy. Spilled wires or components can be obstacles, leading to accidents when workers move around in the quick-fit area.

Finally, a lack of attention and focus during the fitting process can lead to technical errors, causing operational failures or equipment damage. These accidents not only affect the health of workers but can also reduce the quality and performance of the control and electronics system.

3. Causes of Occupational Accidents during Control and Electronics Assembly

Occupational accidents during the assembly of control and electronic units often arise from several main causes. First, a lack of equipment inspection and maintenance can lead to electrical risks or equipment damage. If electronic components are not accurately checked before assembly, or if electronic connections are not made correctly, the risk of accidents will increase.

Second, working without following safety guidelines or techniques can cause serious incidents. For example, using unsuitable tools or lacking skills in handling electronic events can lead to accidents like cuts or impacts. This is especially dangerous when workers are dealing with sharp circuit boards and components.

In addition, an unsafe work environment is also a common cause. If the assembly area is not maintained clean and tidy, or if wires and components are scattered on the floor, the risk of slips and impacts will increase.

Finally, a lack of focus and pressure can lead to errors in the assembly process, causing operational failures or reducing the performance of the control system. All these causes need to be addressed and resolved to ensure effective operational safety during the installation of control and electronic units.

4. Measures to Prevent Occupational Accidents during Control and Electronics Assembly

To prevent occupational accidents during the quick-fit of control and electronic units, enhancing safety measures is extremely important. First, workers need to be fully trained on the quick-fit belt and use personal protective equipment such as anti-electric belts, protective glasses, and safety harnesses. Ensure that all electronic and circuit components are technically checked before assembly, to detect and resolve any incidents that could cause an accident.

The work environment also needs to be kept clean and organized, with all wires and components neatly arranged. This helps to reduce the risk of slips and impacts, and at the same time creates favorable conditions for precise assembly work. Workers should use suitable tools and perform safe assembly techniques to avoid injuries from impacts or cuts.

In particular, periodic inspection and equipment maintenance are necessary to ensure that all electrical and mechanical activities are carried out correctly. Ensuring that all electrical connections are made correctly and there is no risk of electric shock is very important. Finally, maintaining focus and avoiding working under high pressure will help employees perform their work more accurately and safely.

5. Occupational Safety Regulations for Control and Electronics Assembly

When assembling control and electronic units, adhering to occupational safety regulations is an essential condition to ensure worker safety and work efficiency. First, all workers must be fully trained on the assembly process and related safety measures, including the use of personal protective equipment such as anti-electric straps, protective glasses, and safety shoes.

Assembly areas must be organized and kept clean to avoid the risk of slips or impacts. Workers need to technically balance all electronic components and equipment before starting work to ensure they are not damaged or show signs of failure. In particular, making electrical connections must be done carefully and the electrical system must be checked for no risk of electric shock.

In addition, supplementing manual checks and periodic maintenance of equipment is mandatory to detect and resolve any errors that may affect safety. Employees also need to maintain focus throughout the work process and avoid working under high pressure, to minimize errors and the risk of accidents. Implementing these safety regulations not only protects the health of workers but also ensures the performance and reliability of the control and electronics system.

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

6. Handling Emergency Occupational Accident Situations during Control and Electronics Assembly

When an occupational accident occurs during the assembly of control and electronic units, timely and effective handling is crucial to ensure the safety of personnel and limit damage. First, if an incident such as an electric shock or fire occurs, the power source should be quickly disconnected using emergency power cut-off devices to prevent the hazardous situation from spreading. Immediately after, workers should immediately notify the manager and the rescue team for assistance.

In case of injury, employees should be taken to the nearest medical facility for examination and treatment. At the same time, the incident details and possible causes of the accident should be recorded for investigation and to identify preventive solutions. Notifying the basic functions if necessary is also an important step to ensure compliance with occupational safety regulations.

After the incident is handled, it is necessary to quickly control the assembly process and safety measures. The company needs to organize retraining sessions for workers, update regulations and pain-reducing solutions to improve occupational safety and resolve similar incidents in the future.

IV. Occupational Safety and Health for Water Tank and System Installation Staff

1. Job Characteristics of Water Tank and System Installation

Installing the water tank and system is a crucial stage in setting up the cooling system for the machine. This process includes installing the water tank, connecting the pipes, and ensuring a perfect connection with the machine’s cooling system. The water tank must be placed in a stable and suitable position according to the system’s design, ensuring it can hold the necessary amount of water to maintain efficient operation.

The water pipes need to be installed accurately to avoid leaks and water loss, and must be tightly connected to other parts of the cooling system. This installation not only requires precision in aligning and connecting the components but also needs thorough checking to ensure there are no issues with pressure or water flow.

The goal of the installation work is to ensure that the water system operates efficiently, providing enough water for the cooling process and maintaining a stable temperature in the machine. Performing the installation steps accurately helps enhance the machine’s performance and prolong the life of the cooling system.

2. Types of Occupational Accidents during Water Tank and System Installation

During the installation of water tanks and systems, several common types of occupational accidents can occur. A major issue is accidents due to leaks of water or other liquids. When pipes are not installed correctly or are damaged, water can leak, causing slippery floors, which leads to the risk of falls or slips for workers.

In addition, working with water tanks and heavy components can cause injuries from impact or crushing. These incidents often occur when parts are not installed correctly or when workers do not use protective equipment according to regulations.

Incidents related to water pressure are also a hazard. If pipe connections are not thoroughly checked, water pressure can cause explosions or equipment damage, posing a risk to the health and safety of workers. These accidents not only cause material damage but also affect the progress and efficiency of the installation work.

To minimize these risks, adhering to safety regulations and performing thorough checks before and after installation are very important.

3. Causes of Occupational Accidents during Water Tank and System Installation

Occupational accidents during the installation of water tanks and systems often stem from several main causes. One of the primary reasons is incorrect installation or a lack of inspection of pipe connections. If pipes are not installed tightly or do not fit with other parts of the system, it can lead to water leaks, causing slippery conditions and the risk of falls for workers.

Working with heavy and bulky components like water tanks can also be a cause of accidents. When these parts are not properly supported or securely fastened, they can fall or collide, causing injuries to workers.

A lack of pressure checks also contributes to the risk of accidents. If the water pressure in the system is not adjusted correctly or if the equipment is not regularly maintained, it can lead to explosions or equipment damage, threatening the safety of workers.

Finally, non-compliance with occupational safety regulations and a lack of personal protective equipment are also significant causes. Workers need to be equipped with full protective gear and trained to handle hazardous situations to minimize risks and ensure safety during work.

4. Measures to Prevent Occupational Accidents during Water Tank and System Installation

To prevent occupational accidents during the installation of water tanks and systems, applying safety measures is extremely important. First, workers need to be fully trained in installation techniques and occupational safety, ensuring they understand the procedures and potential risks. Thorough inspection before starting work is necessary, especially for pipe connections and tank components, to ensure they are installed correctly and without leaks.

Using personal protective equipment such as gloves, safety glasses, and non-slip shoes helps reduce the risk of injury during work. It is necessary to establish regular inspection and maintenance procedures to detect pressure and damage issues early, and to take corrective measures immediately upon detecting a problem.

To handle heavy components, using lifting support equipment such as cranes or forklifts helps reduce the risk of impact and injury. Furthermore, ensuring the work area is always clean and tidy also helps minimize the risk of slipping due to water leaks or other liquids.

Finally, maintaining effective communication among team members and implementing appropriate safety measures will help ensure a safe working environment and reduce the risk of occupational accidents.

Complete an occupational safety and health training course to be issued an occupational safety card by the occupational safety training center to complete your work file in accordance with regulations.

5. Occupational Safety Regulations for Water Tank and System Installation

When installing water tanks and systems, adhering to occupational safety regulations is crucial to ensure worker safety and work efficiency. First, workers must be properly trained in installation techniques as well as safety measures, including the use of personal protective equipment such as gloves, safety glasses, and non-slip shoes.

Regulations require a thorough inspection of parts before installation, including water tanks and pipes, to ensure they are not damaged and are installed correctly. All connections and seals must be thoroughly checked to prevent water leaks.

The use of lifting support equipment is necessary when working with heavy components to avoid accidents from impacts or falls. The work area must also be kept clean and dry to reduce the risk of slips. Regular inspection and maintenance procedures for the system must be implemented to detect and promptly fix issues related to pressure and leaks.

In addition, regulations require regular supervision and inspection to ensure compliance with all safety measures and correct work procedures. Careful planning and preparation for the installation work are also important factors to ensure safety throughout the process.

6. Handling Emergency Occupational Accident Situations during Water Tank and System Installation

When an occupational accident occurs during the installation of water tanks and systems, quick and effective handling is extremely important to minimize damage and protect the health of workers. First, upon discovering an accident, workers must immediately stop work and notify management or the rescue team. If someone is injured, provide first aid promptly and, if necessary, call an ambulance to take the victim to the nearest medical facility.

In case of leaks of water or other liquids, immediately turn off the water supply to prevent the situation from spreading and to minimize the risk of slipping. At the same time, use protective equipment and temporary remedies to control the situation, such as placing absorbent materials around the leak area to limit exposure.

For equipment failures or incidents, it is necessary to cut the power and stop the operation of related equipment to prevent the risk of fire or further accidents. After handling the emergency situation, an investigation into the cause of the incident should be conducted to learn from it and update appropriate safety measures, and the work process should be re-inspected to avoid similar incidents in the future.

Finally, detailed documentation of incidents and the measures taken is very important to improve safety and emergency handling in the future.

V. Occupational Safety and Health for Quality and Performance Testing Staff

1. Job Characteristics of Quality and Performance Testing

After the assembly process is complete, testing the quality and performance of the product is a crucial step to ensure that the machine operates according to technical standards and customer requirements. During this stage, technicians perform detailed tests to evaluate every aspect of the product. Pressure testing is conducted to determine if the cooling and tank systems are stable and not leaking. Voltage measurement helps ensure that the electronic system operates correctly, there are no electrical issues, and the power supply is stable.

In addition, the machine’s cooling performance is tested to confirm that the product achieves the designed cooling capacity, without any performance degradation or temperature problems. These tests not only help to promptly detect potential faults but also ensure that the product meets the highest quality standards before being used or shipped. The rigorous testing process helps to ensure the reliability and efficiency of the product, while also enhancing customer satisfaction.

2. Types of Occupational Accidents during Quality and Performance Testing

During the quality and performance testing process after assembly, several types of occupational accidents can occur due to various factors. A common risk is electrical accidents from voltage testing. When working with electrical equipment, if not careful, workers can get an electric shock or be burned by contact with strong electric currents. Leaking pressure in the cooling system can also cause accidents such as pipe bursts, causing cold liquids or high-pressure gas to spray out, which is dangerous for workers and can damage equipment.

In addition, during the cooling performance test, if safety procedures are not followed correctly, incidents such as water overflowing from the cooling system or equipment failure can lead to unsafe working conditions for workers. This incident can lead to slips and falls, especially when working on wet or unstable surfaces. These accidents not only affect the health of workers but also disrupt the production process and reduce work efficiency. Identifying and preventing these risks is necessary to ensure the safety of everyone during the product testing process.

3. Causes of Occupational Accidents during Quality and Performance Testing

The main causes of occupational accidents during the quality and performance testing of products often stem from a lack of adherence to work procedures and protective equipment. When testing pressure and voltage, if the equipment is not regularly maintained or does not meet technical standards, there is a risk of gas leaks or electric shock, leading to serious accidents. Not using proper protective equipment such as insulated gloves or safety glasses can increase the risk of contact with hazardous elements.

Furthermore, a lack of knowledge or failure to follow the testing procedure correctly also contributes to an increase in accidents. For example, when testing the cooling system, failing to thoroughly check connections can lead to leaks of cold liquid or high-pressure gas, causing burns or other injuries. Factors such as inaccurate measurements, using unsuitable or unmaintained equipment can also lead to occupational accidents. To minimize these risks, it is necessary to ensure that all workers are fully trained on the testing procedure and use protective equipment correctly.

4. Measures to Prevent Occupational Accidents during Quality and Performance Testing

To ensure safety during the product quality and performance testing process, implementing preventive measures is very important. First, it is necessary to ensure that all testing equipment is regularly maintained and inspected to detect any damage or signs of an incident early. Using proper protective equipment such as insulated gloves, safety glasses, and dust masks helps reduce the risk of contact with hazardous elements like high voltage, cold liquids, and pressure gas.

Training employees is a key factor in preventing accidents. Workers need to be given detailed instructions on the testing procedure, how to use safety equipment, and how to respond to emergency situations. Following the testing procedure according to technical standards and adhering to occupational safety regulations helps minimize risks.

In addition, establishing safety testing procedures, such as identifying and evaluating hazardous points before starting the test, is also very important. It is necessary to have emergency response measures and easily accessible firefighting equipment to handle incidents quickly if they occur. These measures not only protect workers but also ensure that the quality and performance of the tested product meet the highest standards.

5. Occupational Safety Regulations for Quality and Performance Testing

When performing quality and performance testing of a product after assembly, adhering to occupational safety regulations is crucial to protect the health and safety of workers. Before starting the test, all equipment and machinery must be regularly inspected and properly maintained to ensure they operate stably and safely. Employees must be fully trained on the testing process, including how to use the equipment, accurate measurement techniques, and necessary safety measures.

During the test, workers need to use appropriate personal protective equipment, such as insulated gloves, safety glasses, and dust masks, to minimize contact with hazardous elements like high voltage and pressure. The testing procedures must be carried out according to specific technical instructions, and there must be emergency response measures in place to handle incidents quickly if they occur.

In addition, the testing areas need to be organized, well-ventilated, and have clear warning signs to ensure the safety of employees. Maintaining a clean and tidy work environment also contributes to minimizing the risk of accidents. Adhering to these regulations not only protects workers but also helps improve the quality and performance of the tested product.

6. Handling Emergency Occupational Accident Situations during Quality and Performance Testing

During quality and performance testing, handling emergency occupational accident situations requires thorough preparation and a quick response. If an accident occurs, such as an electric shock or injury from high pressure, the first step is to immediately stop the testing activity to ensure safety. Quickly check the victim’s condition and call for an ambulance immediately if necessary.

Workers in the area must be clear on basic first aid procedures, such as how to treat wounds, perform cardiopulmonary resuscitation (CPR) when needed, and use medical protective equipment correctly. At the same time, notify management and the occupational safety department to investigate the cause of the accident and implement corrective measures to prevent similar incidents in the future.

After the incident is handled, reviewing the work and safety inspection process is very important. Update accident records, organize additional training for employees on safety measures, and adjust the work process are necessary steps to improve the work environment and reduce the risk of accidents in the future.