High efficiency with porous carbon! High-precision levitation transport device for ultra-thin glass.
The "Air Bearing Bar" is a precision levitating transport device compatible with 0.1mm thick glass. Non-contact chucking technology assists in the levitating transport of ultra-thin glass. It eliminates the deflection of ultra-thin glass, enabling transfer. Additionally, even warped glass can be held non-contact with high precision while being corrected. 【Features】 ■ Made of porous carbon ■ High precision ■ Energy-efficient ■ Stable levitation characteristics ■ Strong gripping force *For more details, please refer to the catalog or feel free to contact us.
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【Lineup】 ■ Air Bearing Bar (for levitating transport) ■ Air Bearing Bar Master (for levitating transport with NCC function) ■ Non-Contact Chucking (for non-contact gripping) ■ Non-Contact Chucking Master (for non-contact gripping) *For more details, please refer to the catalog or feel free to contact us.
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For more details, please refer to the catalog or feel free to contact us.
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■Company History Our company was founded in 1955 as a manufacturer of carbon for machinery, known as the Carbon Research Institute. After developing precise carbon and mechanical seals, we created porous carbon with fine and uniform pores, and we offer a variety of products primarily for applications in "levitating transport." ■We can solve the following problems: 1. The workpiece is too thin to be transported effectively. ⇒ We need products that can handle delicate workpieces. 2. Scratches occur due to contact during transport. ⇒ We need products that can transport without damaging the workpiece. 3. Wear on the transport surface and drive components leads to increased hassle. ⇒ We want to reduce maintenance costs. ■Features of Porous Carbon It is a porous carbon with fine and uniform pores. By allowing air to flow through the porous structure, a strong fluid film can be formed. This fluid film can levitate films and other materials, enabling the gentle and damage-free transport of delicate workpieces. As workpieces become more high-functioning, there is a growing demand for thinner and more delicate transport, making this material a true next-generation solution for levitating transport.