Yamaha Fine Tech Finishing Robot SystemsYamaha finishing robot systems combine the finishing know-how we have cultivated through instrument manufacturing with peripheral equipment featuring proprietary Yamaha mechanisms, helping you achieve a high level of stable quality in your finishing operations.

Yamaha has teamed up with the world-class FANUC to create our finishing robot systems

Since teaming up with FANUC in 2002, we have been able to fuse the technologies of both companies to develop finishing robots. With the aims of both high and stable quality, we have put Yamaha's exclusive finishing controls into FANUC robots.

Yamaha has teamed up with the world-class FANUC to create our finishing robot system

Robots equipped with finishing controls

By instilling Yamaha's unique finishing controls into machines produced through the knowledge of a skilled robot manufacturer, we have been able produce controls that improve quality, stability, and usability, solving problems that arise with automatic machines, including issues of soft elastic tools changing in length and diameter due to wear, the need for mechanisms that can allow hard tools to trace the profile of a workpiece, and the amount of time spent on teaching work.
Adding Yamaha's finishing knowledge cultivated through instrument making to these finishing controls, users can now achieve stable quality across a wide variety of workpieces.

Load feedback controls

Load feedback controls are used when buffers, brushes, or any other tools that wear down are being used.
The wear conditions of the polishing head are fed back to the system in real time, automatically making adjustments in the machine path and speed to compensate.

Load feedback controls

Offset controls and application pressure feedback controls

These are used for belt sanders, grindstones, and similar finishing tools.
Information like offset values configured against the instructed path and the amount of change in the swing arm are fed back to the system, which automatically adjusts the machine path.

Offset controls and application pressure feedback controls

Thrusting controls

Used in conjunction with thrust floating tool holders, this control allows the application of tools at a given level of strength independent of the tool angle, and it also makes it possible to configure the application (thrust) strength as desired in any location.

Thrusting controls

Teaching support software

Teaching work for finishing processes requires the input and compilation of many data points, all while checking finished quality.
This is software meant to help get you through the potentially frustrating work of teaching.

Teaching support software

Catalog download

Our catalog is not currently available in a downloadable format.
Please use the following form below if you would like to receive a catalog.

Inquiries regarding finishing robot systems

This page lists contact information for inquiries finishing robot systems.

    • +81-53-467-3601(FA Division)
    • +81-53-467-3613
    • Contact us
  • Yamaha Fine Tech Finishing Robot Systems

    Here we will introduce some of the advantages of Yamaha Fine Tech's exclusive tooling mechanisms and finishing controls

  • Deployment flow chart

    We will guide you through the process of deploying a finishing robot system, from ordering and design through production and delivery.

  • Examples of workpieces

    These are some examples of the types of workpieces our systems have been used for.

    • Car parts
    • Automobile parts/Bicycle parts
    • Turbine parts
    • Electric appliance parts/Electronic machine parts
    • Precision machine parts
    • Machine tool/Machine parts・Tool
    • Daily necessaries/Household articles
    • Sporting goods/Medical appliances/the others
  • Product sample videos

    Here you can watch videos prepared to help you better understand what some of what Yamaha Fine Tech's finishing robots are capable of.

Factory visits

Our facilities include a demo room to allow customers to come and perform evaluations and tests on our equipment. Please contact us to find out more.