Production speed is 2 modules per minute (curing time 2 minutes)! The maximum weight of the block is 1.2 kilograms.
We would like to introduce our automatic electrode stacking and deposition device, 'VK-PUM-1010×4', for flexible DSC production. The loading method involves automatically picking up the upper electrode from the loading tray. Approximately 135 sheets (when the sheet thickness is 0.2mm) can be loaded onto the tray, while the lower electrode is manually loaded onto the hot plate by the user. The unloading method automatically unloads the completed modules onto the unloading tray, which can accommodate about 70 modules (when the module thickness is 0.4mm). 【Technical Specifications (Partial)】 ■ Electrode pickup method: Vacuum pads (4), recommended maximum operating temperature for rubber pads is 200℃ ■ Vacuum levels for weight blocks and flexible electrode sheets - For weight blocks: Complete vacuum level of the pump - For flexible electrodes: The vacuum level can be reduced by rotating two flow control valves until the deformation of the electrodes is eliminated. *For more details, please refer to the PDF document or feel free to contact us.
Inquire About This Product
basic information
【Other Technical Specifications (Partial)】 ■ Electrode Size (mm): 100×100 ■ Number of Stacking Locations on Hot Plate: 4 ■ Upper Electrode Alignment Method: Pre-determined Position on Lower Electrode (Users can change the offset distance between the two electrodes via programming) ■ Robot Positioning Accuracy (μm): ±5 ■ Weight Block Size (mm): 100×100 ■ Thickness of Weight Block: 0.1 - 15 mm (Users can change the value via programming) *For more details, please refer to the PDF document or feel free to contact us.
Price range
Delivery Time
Applications/Examples of results
For more details, please refer to the PDF document or feel free to contact us.
catalog(1)
Download All Catalogs
Company information
I established this research institute with the aim of commercializing the chemical film formation technology I developed while working at the university. Along with the fabrication of related devices, I aim to develop a new dye-sensitized solar cell system that utilizes various films produced by this technology, contributing to energy supply and environmental conservation. I intend for all products to achieve the highest standards in the world.