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Gas Management Systems Inert Chemistry Laboratory Glove Boxes With Water And Oxygen Removal 3kpa Single Side
Product Details:
| Place of Origin: | Hunan, China |
| Brand Name: | TENCAN |
| Certification: | CE ISO |
| Model Number: | GBP1000S-3 |
Payment & Shipping Terms:
| Minimum Order Quantity: | 1 set |
|---|---|
| Price: | Negotiable |
| Packaging Details: | Plywood Case+Foam |
| Delivery Time: | 25-35 working days After getting deposit |
| Payment Terms: | T/T, Western Union |
| Supply Ability: | 100 sets per month |
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Detail Information |
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| Product Name: | Purification System Glove Box | Model No.: | GBP1000S-3 |
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| Water Content: | Less Than 1PPM | Oxygen: | '-3000pa~+3000pa |
| Leakage Rate: | Less Than 0.05 Vol %/h | Bearing Pressure: | '-3000pa~+3000pa |
| Operating Side: | Double Sides | Purification Column: | Single Or Double At Buyer's Option |
| Highlight: | Inert Chemistry Laboratory Glove Boxes,Water Removal Laboratory Glove Boxes,Oxygen Removal Laboratory Glove Boxes |
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Product Description
China Tencan Glove Box With Purification System Single Side for Water and Oxygen Removal
Brief Introduction
The Purification System Glove Box is a laboratory device designed to infuse its chamber with high-purity inert gas and simultaneously purify it by eliminating active impurities. Commonly known as a "vacuum glove box for water and oxygen extraction" or an "inert gas purification glove box," its main functions include the removal of water, oxygen, and other organic gases. This glove box is widely employed to establish a high-purity, contamination-free environment free from water, oxygen, and dust particles.
Working principle
The box and purification system are integrated to establish a securely enclosed operational area. By consistently infusing inert gas or nitrogen into the box, it enables the continuous extraction of active substances in a cyclical manner, thereby ensuring that the interior maintains an exceptional level of cleanliness and a consistent high-purity inert gas atmosphere, with water content kept at 1 ppm or below and oxygen content limited to 1 ppm or less.
Structure Principle
The Purification System Glove Box primarily consists of two essential components: the main box body and a transition chamber. We offer customized designs and specifications to meet our clients' unique requirements.
The main box body features two or more glove operation interfaces on its front or back side, enabling simultaneous operation by one or multiple operators, thus enhancing the efficiency of using the glove box. Furthermore, observation windows are incorporated on either the front or back, offering clear visibility of the operational processes inside the box. Air suction and charging nozzles are located on the valves of the transition chamber, facilitating the extraction or introduction of air as needed. Additionally, the main box body is equipped with a valve and nozzle that can be used to maintain an air pressure balance inside the box whenever necessary.
The transition chamber serves as an intermediary space between the main box body and the external environment, comprising two sealing doors, two valves, and a chamber body. Both sealing doors effectively isolate the interior of the main box body from the outside, allowing for seamless transfer of items in and out of the box while maintaining an isolated atmosphere, thereby eliminating the need for repeated evacuation and inflation procedures.
Applications
Applies to making pure environment with removal of water, oxygen and dust.
R&D and production of battery industry (Lithium ion battery, powder battery, solar cell, lithium ion phosphate battery ).
R&D and manufacture of special lamp (HD lamp, metal halide lamp, ceramic metal halide lamp).
Welding (resistance welding, TIG welding, laser welding, plasma welding, brass solder)
R&D and production of OLED
R&D and production of pharmaceuticals
R&D and production of super capacitors
Fine chemical industry
Nuclear industry
R&D and production of new energy materials
Specifications
| Specifications of Standard Model of Purification Glove Box | ||||||
| No. | Model No. | Box Dimensions | Total Dimensions | Operating Sides |
Numbers of Gloves |
Options |
| 1 | GBP800S-2 | 1200*800*930mm | 1915*830*1830mm | Single | 2 | Single or double purification columns |
| 2 | GBP1000S-2 | 1200*1000*930mm | 1915*1060*1830mm | Single | 2 | Single or double purification columns |
| 3 | GBP1000D-4 | 1200*1000*930mm | 1915*1060*1830mm | Double | 4 | Single or double purification columns |
| 4 | GBP1200S-2 | 1200*1200*930mm | 1915*1260*1830mm | Single | 2 | Single or double purification columns |
| 5 | GBP1200D-4 | 1200*1200*930mm | 1915*1260*1830mm | Double | 4 | Single or double purification columns |
| 6 | GBP800S-3 | 1500*800*930mm | 2215*1060*1830mm | Single | 3 | Single or double purification columns |
| 7 | GBP1000S-3 | 1500*1000*930mm | 2215*1060*1830mm | Single | 3 | Single or double purification columns |
| 8 | GBP1000D-6 | 1500*1000*930mm | 2215*1060*1830mm | Double | 6 | Single or double purification columns |
| 9 | GBP1200S-3 | 1500*1200*930mm | 2215*1260*1830mm | Single | 3 | Single or double purification columns |
| 10 | GBP1200D-6 | 1500*1200*930mm | 2215*1260*1830mm | Double | 6 | Single or double purification columns |
| 11 | GBP800S-4 | 1900*800*930mm | 2615*1060*1830mm | Single | 4 | Single or double purification columns |
| 12 | GBP1000S-4 | 1900*1000*930mm | 2615*1060*1830mm | Single | 4 | Single or double purification columns |
| 13 | GBP1000D-8 | 1900*1000*930mm | 2615*1060*1830mm | Double | 8 | Single or double purification columns |
| 14 | GBP1200S-4 | 1900*1200*930mm | 2615*1260*1830mm | Single | 4 | Single or double purification columns |
| 15 | GBP1200D-8 | 1900*1200*930mm | 2615*1260*1830mm | Double | 8 | Single or double purification columns |
Notes:
Cabinet water and oxygen content under the standard condition:
The acceptable water content is limited to 1 ppm or less, and the oxygen content must not exceed 1 ppm (Note: These specifications are measured under standard conditions of atmospheric pressure and a constant temperature of 20°C).
Leakage Rate: ≤0.05Vol%/ h (subject to change value of oxygen content in box)
Used Gas:
a) Working Gas: N2,Ar,He and etc.
b) Controlling Gas: Compressed air or Inert Gas.
C) Restoring Gas: Mixed gas of working gas and hydrogen.
Restoring gas is as same as working gas if there is only water removal system or oxygen removal system.Note: An assembled glove box system comprises single-sided boxes, each equipped with four gloves, and the number of these boxes can be tailored to meet customer requirements. Additionally, the purification columns are specifically designed in quantities that exactly match each customer's specifications.
Technical Parameters
| TECHNICAL DATA OF TENCAN INERT GAS GLOVE BOX WITH PURIFICATION SYSTEM | |
| Items | Data |
| Water content under the standard condition (Note: The standard condition is one atmospheric pressure, constant temperature of 20 degrees) | ≤1ppm |
|
The measurement of oxygen content is conducted under standardized conditions: one atmosphere of pressure and a consistent temperature maintained at 20 degrees Celsius. |
≤1ppm |
| Max Vacuum Degree which the transition cabinet bears | <100pa |
| Leakage Rate | ≤ 0.05vol%/h |
| Gas presure range inside the box | -3000pa~+3000pa |
Functions
| FUNCTIONS OF TENCAN INERT GAS GLOVE BOX WITH PURIFICATION SYSTEM | |
| Items | Descriptions |
| Automatic Control | Controlled and monitored automatically by the program control unit. |
| Box body gas replacement (manual/automatic) |
Before starting up, the cabinet's air needs to be swapped out for inert gas or nitrogen. This process can be efficiently executed through the cabinet's system-integrated automatic gas replacement feature, or it can be done manually as a secondary option. |
| Transition cabinet replacement (manual/automatic |
Upon placing material in a box, it necessitates the replacement of the gas transition cabinet. This can be achieved by either utilizing the airlock system's automatic gas exchange function or by manually carrying out the gas replacement. |
| Gas purification control |
After setting up the work status and results, the system purification procedures set to “Auto”, the system will automatically maintain the atmosphere condition of the cabinet,then the system will automatically complete the work; you may also choose manual control. |
| Pedal air-pressure control |
Operate the foot controller to regulate gas pressure within the cabinet by controlling the inflation or exhaust system. |
| Reduction of purification system |
After setting the reduction parameters, the system assumes control over the purification material reduction process. With a simple "reduce" command, the system manages the entire procedure independently, negating the need for human supervision. |
| On-line operating condition detection |
The control system provides users with the operating condition detection function of the component of the equipment. Such function can be used to observe operating condition of the component and inspect fault source of each function and component. |
| System parameter setting |
System settings function, users can set the system parameters to achieve the desired working conditions and feature set. |
| Data logging function |
The system provides operating parameter record of the equipment, this record can be traced back to monitor production or experiment. |
| Control of gas reserve function |
When the temporary cutting of control-gas supply, or cutting off control-gas source for some time, the control-gas reserve will protect the equipment continue working. |
| Standby function of cycle gas cooled |
The purification system includes a heat exchange process that cools the circulating gas, enabling it to function standalone by utilizing coolant injection to manage the temperature of the circulating gas. |
| Multi-level safety system |
The control system is equipped with various security features, encompassing multilevel safety warnings, alarms, and deactivation capabilities, aimed at safeguarding both the operators and the equipment. |
| Protection function when purification cycle blocked |
Upon detecting an obstruction in the circulation system, the control system initiates alerts and proactively modifies the air speed to protect the motor. Furthermore, this feature has the capability to identify problems including blocked system cycles, inadequate piping, obstructions in filter controls due to dust, and various other associated issues. |
