Plexiglass Glove Box
1)Acrylic Type A glove box: No sample transfer window, must be take it out from the door.
2)Acrylic Type B glove box:There is a sample transfer window, which can protect the gas environment inside the box from being damaged by the outside world.
3)Acrylic Type B glove box:The air in the box can be extracted through the vacuum pump, and then through the high purity dry inert gas into the box, and reach the lower water oxygen content in the box
2.Customization:
1)Single, double, multiple people and other different station boxes.
2)Different shapes, different structures, different applications, different thickness customization options.
3)Doors of different sizes can be opened on any side of the box to facilitate the entry and exit of equipment and accessories.
4)For other optional configurations, contact sales personnel.
***Price List for whole above, inquire us to get
Description
Technical Parameters
Plexiglass glove box, also known as vacuum glove box, inert gas protection box, etc., is a precision equipment widely used in scientific research, industrial production, and laboratories. It uses organic glass (usually PMMA material) as the main construction material, which has high transparency, good chemical stability, and corrosion resistance, and can adapt to various complex environmental conditions. The main function of the organic glass glve box is to provide an oxygen free, water free, and dust-free operating environment for the test samples, ensuring the purity and reaction accuracy of the samples, while protecting the experimenters from direct contact with harmful substances.
When purchasing the equipment, it is necessary to take the sealing, gas purification capacity, vacuum degree as the core indicators, combined with the functional configuration of glove material, observation window, operation table, etc., to choose the brand of reliable and perfect after-sales products. It is recommended to verify the performance of the equipment through field investigation and prototype testing to avoid problems caused by low price in later use.
Specifications
Main Features
Transparent Material:
Made of PMMA material, which has high transparency, making the structure inside the box clear at a glance and easy to operate. This transparency not only facilitates the observation of the experimental process, but also makes the placement and retrieval of items inside the box more intuitive.
Good sealing performance:
The organic glass glove box has excellent sealing performance, which can effectively isolate external air and impurities, ensuring an oxygen free, water free, and dust-free environment inside the box. In addition, it can shield and absorb alpha rays and low-energy beta rays emitted by radioactive substances, protecting human tissues from ionizing radiation damage.
Gas resistance:
Under normal conditions, the shape of the organic glass glve box is stable and can withstand the effects of gas changes. This makes it more suitable for handling volatile and oxidizable substances.
Chemical corrosion resistance:
PMMA material has good chemical stability and can resist the erosion of various chemical substances, including some common acids, alkalis, and organic solvents. This makes the organic glass glve box safer and more reliable when handling corrosive substances.
UV Transmittance:
Organic glass glve boxes are capable of transmitting UV light, which is crucial for experiments that require UV irradiation. At the same time, this characteristic also makes the observation of items inside the box clearer under ultraviolet light.
Porous socket:
The box is equipped with a porous socket, which is convenient for scientific experiments and instrument connection. This makes the experimental process more convenient and efficient.
Major Functions
Sample protection: One of the main functions of the organic glass glve box is to protect the sample. By providing an oxygen free, water free, and dust-free operating environment, it can ensure the purity of the sample and the accuracy of the reaction. This is crucial for experiments that require extremely high environmental and environmental conditions.
Safe operation: Experimenters can operate through the glove opening, avoiding direct contact with harmful substances. This design not only protects the safety of experimenters, but also reduces pollution and errors during the experimental process.
Inert gas circulation: Introduce high-purity inert gas into the box and circulate and filter active substances to maintain a stable and pure experimental environment. This helps eliminate the interference of oxygen, moisture, and organic gases on the experimental results.
Radiation protection: Organic glass glve boxes can shield and absorb alpha rays and low-energy beta rays emitted by radioactive substances, thereby protecting human tissues from ionizing radiation damage. This is very important for experiments dealing with radioactive materials.
Applications
Plexiglass glove boxes have a wide range of applications in various fields, including but not limited to the following aspects:
Research institutions: In research institutions, organic glass glve boxes are commonly used for experimental work on low-energy radioactive substances, sterile operations for microbial inoculation, and closed isolation operations for qualitative and quantitative analysis of chemical substances. These experiments often have extremely high requirements for the environment and conditions, requiring a stable and pure experimental environment to ensure the accuracy of the results.
Electronic materials: During the preparation and processing of electronic materials, organic glass glve boxes can provide an oxygen free, water free, and dust-free environment to prevent material contamination and oxidation. This is of great significance for improving the performance and stability of electronic materials.
Magnetic materials: The preparation and testing process of magnetic materials also require a pure environment to avoid pollution and interference. Organic glass glve boxes can meet this demand and provide strong support for the research and production of magnetic materials.
Equipping batteries: During the preparation process of equipping batteries, the organic glass glve box can provide an oxygen free, water free, and dust-free environment to prevent internal contamination and corrosion of the batteries. This is of great significance for improving the performance and safety of batteries.
Biological cultivation: During the process of biological cultivation, the organic glass glve box can provide a sterile and dust-free environment to prevent contamination by microorganisms and impurities. This is crucial for improving the success rate and product quality of biological cultivation.
Food packaging: During the food packaging process, the organic glass glve box can provide an oxygen free and dust-free environment to prevent food from being oxidized and contaminated. This is of great significance for extending the shelf life of food and maintaining its quality.
Models & Configurations
There are various models and configurations of organic glass glve boxes to choose from to meet different experimental and production needs. Here are some common models and configurations:
Type A
Used for radiation protection, isolation or dust prevention operations, without transition boxes. This type of glve box has a relatively simple structure and is suitable for experiments that do not require high environmental and condition requirements.
Type B
Used as an anaerobic hydrophobic glve box, the transition chamber can be evacuated, and the operating chamber can be replaced with inert gas. This type of glve box has higher flexibility and applicability, and can meet the needs of different experiments.
Type C
Both the operation box and the transition box can be evacuated, and the vacuum degree can reach the ultimate vacuum of -0.1MPA. This type of glve box has higher precision and stability, making it suitable for experiments that require extremely high environmental and environmental conditions.
In terms of configuration, Plexiglass glove boxes are usually equipped with basic equipment such as vacuum gauges, vacuum valves, power strips, and air pipes. In addition, auxiliary equipment such as vacuum pumps, dew point meters, oxygen analyzers, balances, and electric furnaces can be selected according to experimental needs. The configuration of these devices makes the organic glass glve box more convenient and efficient during the experimental process.
Common Problems & Solutions
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Glove breakage
Gloves may be damaged during use due to friction or collision. The solution is to regularly check the integrity of the gloves and replace them with new ones in a timely manner when any damage is found.
Decreased sealing performance
Due to long-term use or improper operation, the sealing performance of the organic glass glve box may decrease. The solution is to regularly inspect and maintain the sealing components, and promptly replace the sealing components or adjust the sealing structure when a decrease in sealing performance is found.
Equipment malfunction
Organic glass glve boxes may experience equipment malfunctions or abnormal situations during use. The solution is to regularly check the operating status and performance parameters of the equipment, and promptly shut down for maintenance or contact professional maintenance personnel for repair and handling when faults or abnormal situations are discovered.
The plexiglass glove box is an innovative and essential piece of equipment designed for the safe handling and manipulation of hazardous, toxic, or radioactive materials. Constructed primarily from plexiglass-a transparent, lightweight, and durable material-this glove box offers a clear view of its interior while providing robust protection to the operator.
The box features airtight seals and can be equipped with a variety of gas inlet and outlet ports, allowing for the maintenance of a controlled atmosphere within. This is particularly useful in applications where specific gas environments are required, such as in materials science, chemistry, and biology research.
The gloves, which are an integral part of the system, are attached to the box via airtight sleeves. These gloves enable the operator to manipulate objects inside the box without direct exposure to the contents. The gloves are typically made from durable, flexible materials that can withstand frequent use and are resistant to a wide range of chemicals.
In addition to its safety features, the glove box is also highly versatile. It can be customized to fit various sizes and configurations, making it suitable for a wide range of applications. Its transparent construction allows for easy monitoring of the processes occurring inside, while the compact design ensures that it can be easily integrated into existing laboratory setups.
Overall, the glove box is a reliable and essential tool for researchers and professionals working with hazardous materials. Its combination of safety, versatility, and ease of use makes it an invaluable addition to any laboratory or research facility.
Technical advantages
High light transmittance: the light transmittance of Plexiglass (PMMA) material is more than 92%, which is close to the light transmittance of glass, and the experimenters can clearly observe the operation process in the box.
Stable optical performance: stable form under normal conditions, resistant to ultraviolet light, easy to long-term experimental observation.
Withstand a variety of chemical substances: can withstand relatively dilute inorganic acids, alkalis and some organic solvents, suitable for complex experimental environment.
Long-term stability: Excellent chemical stability, long-term use is not easy to corrosion deformation, reduce maintenance costs.
Adapt to environmental changes: Maintain stable performance in the environment with large climate changes, and are not easy to deform or age.
Compressive and fireproof: The box material has high compressive strength, and some models are equipped with fireproof and explosion-proof design to improve safety.
Lightweight and portable: Compared to metal or glass, the glove box is lighter and easier to move and install.
Easy operation: simple structure, equipped with porous electrical socket, convenient for scientific testing and equipment integration.
Isolation of harmful substances: Operate through the glove mouth to avoid direct contact with toxic and harmful substances.
Anti-radiation and anti-static: Shielding alpha and low-energy beta rays, anti-static design reduces fire risk.
Inert gas cycle: The efficient purification system can maintain an oxygen-free, water-free and dust-free environment to meet the needs of high purity experiments.
Temperature and humidity regulation: equipped with advanced control system to stabilize the temperature and humidity in the box to ensure the accuracy and repeatability of the experimental results.
Multi-disciplinary application: Widely used in biochemistry, metallurgy, electronics, chemical industry, medicine and other fields, support material synthesis, chemical reaction, biological experiments, etc.
Interdisciplinary Collaboration Platform: Versatility and flexibility make it an important tool for interdisciplinary collaboration.
Easy maintenance: Good sealing performance reduces the risk of leakage and reduces the frequency of maintenance.
Cost-effective: Compared to materials such as stainless steel, the cost of the device is lower and suitable for laboratories with limited budgets.
Special explosion-proof design: explosion-proof materials and structures are used to ensure safe operation under specific conditions such as low oxygen and inert gases.
Pressure control: Equipped with vacuum ball valve and gas interface to adjust internal pressure and prevent explosion risk.
Modular design: The box size, transition chamber and gas purification system can be customized according to the experimental requirements.
Equipment integration: Support integration with microscopes, spectrometers and other analytical instruments to achieve multi-functional collaborative operation.
These technical advantages make the plexiglass glove box an indispensable experimental equipment in the field of scientific research and industry, especially suitable for scenes with high environmental cleanliness and safety requirements.
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