Marposs has announced its NVH Gear Tester for identifying potential gear defects at the component level prior to gear box assembly. The NVH gear tester, which works on the single-flank testing principle of one master gear meshing with the component under inspection, is able to detect macro-geometry (e.g., nicks, runout) and micro-geometry (gear-mesh excitation, ghost orders) defects that cause gear whine and noise phenomena.
With electrification of the automotive industry, many hybrid electric vehicle (HEV) and full electric vehicle (EV) drivetrains are facing challenges such as increased NVH requirements in high-speed e-Drives. And, although the number of gear wheels is significantly reduced in electric vehicles due to the use of one- or two-speed reducers instead of the classic manual, automatic, or twin-clutch gearboxes, these gear wheels are loaded with torque and rpm not previously found in high-volume production.
With hybrids and EVs, the noise from an internal combustion engine (ICE) is intermittent or nonexistent, so that transmission makes the most dominant vehicle noise. Noise, therefore, becomes not only a mechanical issue for the performance of the transmission, but also a comfort issue for the driver.
Basically, the concept of NVH testing is to stress the gears by applying rotation speeds and torque values similar (or even higher) to those that are applied in real working conditions. The ability to test gears at operating conditions almost comparable to the final e-Drive is a main benefit of the NVH Gear Tester.
The output parameter is the angular acceleration of the part (or master), evaluated instantaneously and in the long run with the use of encoders (TE inspection) and torsional accelerometer (TAC inspection). The stiff granite structure of the NVH Gear Tester makes it impervious to external interferences, and a highly configurable software make this system as good as correlating data with the end-of-line test rig.
The NVH Gear Tester has a max rotating speed of 3,000 rpm, a driving torque of 0–30 Nm, and can accommodate a max gear-tooth height of 70 mm and shaft length of 280 mm. It can be designed to work with either manual or automatic loading.(内容转载自:Metrology.News)