As demand for vehicle transmissions and other systems requiring quieter, more compact and lighter gear mechanisms increases, gear manufacturers seek to continually boost productivity while lowering costs.
To enable manufacturers to quickly, accurately and completely produce those gears in a single machine, Mitsubishi Heavy Industries Ltd., Tokyo, developed a technology to permit machining of diverse gear types, such as internally and externally toothed ones. By applying two different multiple-threaded grinding wheels, the technology enables mass production of complex gears, including internal ring gears and some external gears, such as stepped gears and pinion gears with shafts.
Courtesy of Mitsubishi Heavy Industries
On the ZI20A grinding machine from Mitsubishi Heavy Industries, an hourglass-shaped, multiple-threaded grinding wheel can produce external gears, whereas a barrel-shaped, multiple-threaded wheel can create internal ring gears.
The machine tool builder reported that it developed the technology to significantly expand the applications for its ZI20A grinding machine, introduced in 2009 to make internal ring gears. To produce external gears on the grinder, MHI adopted an hourglass-shaped, multiple-threaded wheel, where the diameter gradually decreases from both ends toward the center. For example, stepped gears, which have gears of different diameters layered in a staircase pattern, and pinion gear and shaft assemblies can be machined in the ZI20A because the technology prevents interference between wheels and workpieces.
When grinding internal ring gears, which are generally used as planetary gears, the machine applies a barrel-shaped, multiple-threaded wheel, where the diameter expands toward the center. Similar to external gear grinding, the technology prevents wheel/workpiece interference.
Conventional methods for finish grinding internal ring gears, external stepped gears and gears with shafts after heat treating require grinding individual tooth grooves with a small-diameter, disc-shaped wheel to prevent interference—a procedure not suitable for mass production, according to MHI. In contrast, the ZI20A can now grind multiple teeth simultaneously.
For more information, contact the Gear Technology Center of Mitsubishi Heavy Industries Inc., Machine Tool Div., Wixom, Mich., at (248) 669-6136 or visit www.mitsubishigearcenter.com.
Related Glossary Terms
- grinding
grinding
Machining operation in which material is removed from the workpiece by a powered abrasive wheel, stone, belt, paste, sheet, compound, slurry, etc. Takes various forms: surface grinding (creates flat and/or squared surfaces); cylindrical grinding (for external cylindrical and tapered shapes, fillets, undercuts, etc.); centerless grinding; chamfering; thread and form grinding; tool and cutter grinding; offhand grinding; lapping and polishing (grinding with extremely fine grits to create ultrasmooth surfaces); honing; and disc grinding.
- grinding machine
grinding machine
Powers a grinding wheel or other abrasive tool for the purpose of removing metal and finishing workpieces to close tolerances. Provides smooth, square, parallel and accurate workpiece surfaces. When ultrasmooth surfaces and finishes on the order of microns are required, lapping and honing machines (precision grinders that run abrasives with extremely fine, uniform grits) are used. In its “finishing” role, the grinder is perhaps the most widely used machine tool. Various styles are available: bench and pedestal grinders for sharpening lathe bits and drills; surface grinders for producing square, parallel, smooth and accurate parts; cylindrical and centerless grinders; center-hole grinders; form grinders; facemill and endmill grinders; gear-cutting grinders; jig grinders; abrasive belt (backstand, swing-frame, belt-roll) grinders; tool and cutter grinders for sharpening and resharpening cutting tools; carbide grinders; hand-held die grinders; and abrasive cutoff saws.
- grinding wheel
grinding wheel
Wheel formed from abrasive material mixed in a suitable matrix. Takes a variety of shapes but falls into two basic categories: one that cuts on its periphery, as in reciprocating grinding, and one that cuts on its side or face, as in tool and cutter grinding.
Author
Alan holds a bachelor’s degree in journalism from Southern Illinois University Carbondale. Including his 20 years at CTE, Alan has more than 30 years of trade journalism experience.
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