【Notification of Manufacturer Change for Panasonic Industrial Devices SUNX Products and Panasonic Industrial Devices SUNX Tatsuno Products】
From April 1, 2024, the terms "Panasonic Industrial Devices SUNX Co., Ltd." and "Panasonic Industrial Devices SUNX Tatsuno Co., Ltd."
in this page and in the manuals and other documents to be downloaded will all be replaced with "Panasonic Industry Co., Ltd." and applied accordingly.
One-Touch Connection System Vacuum-resistant Fibers
Breakthrough in vacuum-resistant fibers
One-Touch Connection Just in 1 Second*
* Time required to connect one fiber to the flange.
Features
Easier and simpler. Amazingly easy to connect!
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Vacuum-resistant fiber flange designed to enable easy connection (one-touch connection) and disconnection of fibers one by one or at the same time.
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One-touch connection just in 1 second
Simply insert the fiber into the flange
The newly developed one-touch connection system allows easy connection of a fiber by simply positioning the fiber in the specified direction and inserting. The fiber can be disconnected by pulling the holding bracket up. The one-touch connection system helps reduce working hours dramatically.
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Thread fastening type
- It is difficult to tighten with a glove-covered hand.
- Small parts can be easily lost.
- Excessive tightening can break or bend the wire.
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One-touch type
- One-touch connection system reduces working hours and workload dramatically.
- Connection is as easy as inserting the fiber into the flange.
- Easy connection without a tool or torque management.
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The disconnection prevention structure uses a holding bracket that engages securely with the joint bracket. |
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Vacuum-resistant 4CH / 1CH flange
Requires drilling of only one hole
The flange connection system requires less space for the fiber lead-in section and fewer holes to drill.
Previously, one installation hole had to be drilled for each fiber. The vacuum-resistant flange requires only one hole even for multiple fibers, thus reducing the hole drilling cost and the possibility of leakage.
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Conventional fiber lead-in section
- A hole must be drilled for each fiber at the lead-in section.
- An ample space is needed for inserting a hand and using a tool.
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Fiber lead-in section of the vacuum-resistant flange
- Only one hole needs to be drilled even for the connection of eight fibers. This reduces the processing cost and the worries for leakage to 1/8.
- Saves space at the lead-in section because fibers can be grouped and connected.
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Leakage seal construction
The leakage seal construction has built-in glass wires inside the flange and allows transmission of only light to the vacuum side. Leakage remains unchanged even when fiber is not connected. * Leakage from 4CH / 1CH flange: 1.0 × 10-10 Pa·m3/s [He] or less
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Applications
Detection of glass seating on robot hand |
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Detection of semiconductor wafer |
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Detection of passing glass |
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Detection of presence / absence of glass |
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Contributes to your product quality improvement and workload reduction
Using the integrated manufacturing system established in our factory, we conduct all processes ranging from product development to production, quality control, packaging and shipping.
Vacuum baking for the reduction of outgas
The vacuum side fiber and flange are cleaned and baked, and then seal-packed and doublepacked for shipping. |
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Customizable fiber length
We offer semi-custom products in which the fiber length can be specified in 100 mm 3.937 in increments. Different fiber lengths can be specified for the emitting side and receiving side. Contact our sales office for semi-custom products. >>Go to "Guide to interchanging fiber length and sleeve length" |
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