Sheet feeding, conveying, and stacking device
Airflow sheet feeding and laminating device
Send out, transport, and stack sheets using air flow.
The device is designed to stack sheets such as amorphous solar cells, polarizers, films, sheets, wafers, glass, and paper using a non-contact transport system called "Float Chuck" (patented), which feeds out the stacked sheets one by one while ensuring that no drooping occurs at the leading edge, allowing for precise stacking. In the film feeding section, an "air flow feeding mechanism" (patented) is employed to reliably feed out the films one by one. The transport section utilizes the "Float Chuck," enabling transport without causing drooping at the leading edge of the film during the process. This allows for defect inspection of film reflection and transmission using sensors. The stacking section consists of a "non-contact suspended conveyor" formed by the non-contact transport device "Float Chuck," which drops thin, flexible films in a horizontal state and stacks them accurately at high speed.
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basic information
This device sends out stacked sheets of amorphous solar cells, films, sheets, glass, paper, etc., one by one using a non-contact transport system called "Float Chuck" (patented), ensuring that no drooping occurs at the tip and allowing for precise stacking.
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Applications/Examples of results
The device is designed to stack sheets such as amorphous solar cells, polarizers, films, sheets, wafers, glass, and paper using a non-contact transport system called "Float Chuck" (patented), which feeds out the stacked sheets one by one while ensuring that no drooping occurs at the leading edge, allowing for precise stacking. In the film feeding section, an "airflow feeding mechanism" (patented) is employed to reliably feed out the films one by one. The transport section utilizes the "Float Chuck," enabling transport without causing drooping at the leading edge of the film during the process. This allows for defect inspection of the film's reflection and transmission using sensors. The stacking section consists of a "non-contact suspended conveyor" formed by the non-contact transport device "Float Chuck," which drops thin, flexible films in a horizontal state and stacks them accurately at high speed.
Company information
Manufacturing of non-contact transport devices and application devices for wafers, liquid crystal glass substrates, PDPs, ceramics, printed circuit boards, FPC substrates, films, paper, cloth, etc., using our patented non-contact transport device "Float Chuck" based on the vertical gas jet method developed by our company.