Glove Box with Heated Transfer Chamber

Customers have reported that some materials with moisture need to be dried, so we have added a heating treatment to the transition bin. The heating method for the transition bin is that we put the heater under the layer of the transition bin. Since the heating is done in a vacuum state, the heat conduction heating speed will be faster and the effect will be better. A glass fiber insulation layer is made outside the transition bin for insulation. The actual heating inside can reach 60°, and we have integrated the temperature control system directly into the PLC control system, so the temperature of the transition chamber can be set directly through the PLC. If you need to customize equipment with other temperatures, it is also possible.

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Key Features

Heated Transition Bin
- Equipped with an integrated heating system located beneath the transition bin layer.
- Heating is conducted in a vacuum state, ensuring faster and more efficient heat conduction.
- Achieves an internal temperature of up to 60°C, effectively drying moisture-sensitive materials.
Insulation Design
- The transition bin is wrapped in a glass fiber insulation layer to minimize heat loss and maintain consistent temperatures.
- Ensures energy efficiency and safety during operation.
Precise Temperature Control
- Temperature control is seamlessly integrated into the PLC (Programmable Logic Controller) system.
- Users can easily set and monitor the transition bin temperature directly through the PLC interface.
- Customizable temperature ranges available upon request to meet specific research needs.
Vacuum Environment
- Heating is performed under vacuum conditions, enhancing heat transfer efficiency and ensuring uniform drying.
- Prevents oxidation or contamination of sensitive materials during the drying process.
Versatile Applications
- Perfect for drying and pre-treating materials such as:
  - Moisture-sensitive powders (e.g., battery electrolytes, metal oxides).
  - Air-sensitive crystals (e.g., PCCO single crystals).
  - Nanomaterials and organic compounds.
User-Friendly Design
- Intuitive PLC interface for easy operation and monitoring.
- Modular design allows for customization to fit specific laboratory requirements.

Technical Specifications

Heating Temperature Range: Up to 60°C (customizable higher temperatures available).
Heating Method: Vacuum-based heat conduction for faster and more efficient drying.
Insulation: Glass fiber insulation layer for optimal heat retention.
Control System: Integrated PLC system for precise temperature control.
Material Compatibility: Compatible with a wide range of moisture-sensitive materials.
Dimensions: Customizable to fit laboratory space and workflow requirements.

Why Choose Our Glove Box with Heated Transition Chamber?

Enhanced Efficiency: The vacuum-based heating system ensures faster and more effective drying.
Precision Control: Integrated PLC system allows for easy temperature setting and monitoring.
Customizable Solutions: Tailored configurations to meet specific research needs, including higher temperature ranges.
Reliability and Safety: Designed with high-quality materials and insulation for safe and consistent performance.

A Sample Customized Glove Box with Heated Transfer Chamber

Details of Glove Box with Heated Transfer Chamber:

Heated Transition Chamber

The materials transferred by the box need to be heated, and a heater is installed under the transition compartment tray to heat the transferred materials.

Inside the Transition Warehouse

The heater is installed under the tray inside the box, and the heating speed is fast. It heats the material directly.

Temperature Control

If the temperature is too high or too low, it will affect the material. The thermostat can control the temperature and will not burn the material.

Vacuum Gauge of the Transfer Chamber

During the experiment, observe the pressure changes in the box when transferring materials, evacuating the vacuum and replenishing nitrogen.

Electrical boxes and purification materials

Purification material: Copper catalyst: 5kg Molecular sieve: 7.0kg
Purification capacity: Deoxygenation: 60L Dewatering: 2Kg,
Water Oxygen index: less than 1ppm (empty box)

Vacuum Pump

The vacuum pump is used to evacuate the box, control the gas replenishment and exhaust of the box, and fine-tune the pressure in the working chamber.

Equipped with a Fluorescent Light Switch

UV-free white light, installed above each glass window, saves energy, generates little heat and has high brightness.

Butyl Gloves

Butyl rubber, thickness 0.4mm, diameter 8" length 32"