Corresponding to various conditions such as the shape of different types of work in automation, transportation volume, and transportation mechanisms! Explanation of 3D transportation devices!
This document is an excerpt from the June 2006 issue of the Technical Forum, introducing the features and applications of the "FA Three-Dimensional Space Traveling Handling Robot (FCS)." It is a flexible design inter-process transport device that can accommodate various conditions such as the shape of different workpieces, transport volume, and transport mechanisms, enabling the instantaneous alignment and transport of workpieces from one process to the next. [Contents (Excerpt)] ■ Features ■ System Benefits ■ Posture of Workpieces Before and After Transport *For more details, please refer to the PDF document or feel free to contact us.
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basic information
【Publication Content (Excerpt)】 ■ 17 Principles of Consideration for Automation ■ FCS Appearance ■ Shaft Transport Example ■ Inner Diameter Chuck Example ■ FCS Specifications ■ Relationship Between Guide Rail Layout and Workpiece Posture ■ Workpiece Posture *For more details, please refer to the PDF document or feel free to contact us.
Price range
P5
Delivery Time
※Depending on the specifications and conditions, it will take 1 to 3 months.
Applications/Examples of results
For more details, please refer to the PDF document or feel free to contact us.
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The FCS Flexible Carrier System performs linear transport, planar transport (2D transport), and three-dimensional transport in a single drive unit. It travels along a track connected by guide rails in horizontal, vertical, and curved configurations via wires, and the carrier equipped with a chuck can be fitted with mechanisms for changing the posture of workpieces, pickup mechanisms, etc., as needed. Since there is no need to change the grip of workpieces during transport, the need for numerous workpiece loading and unloading mechanisms and transfer devices in conventional transport systems is eliminated, resulting in significant cost reductions. Additionally, the absence of errors associated with grip changes brings substantial advantages to production efficiency and other factors.
