The hydraulic cylinder fork head pin shaft passes through the 2 back-to-back cone bearings, hydraulic cylinder swing is not fixed, the connecting shaft is not fixed position of hydraulic cylinder, the maximum thrust of 4 tons, then how to calculate the axial and radial component connecting shaft in tapered roller bearings, and then calculate the single bearing equivalent dynamic load? Thank you
Equivalent dynamic load Pr=XFr+YFaWhen Fa/Fr<1.5tana, X=1, Y=0When Fa/Fr>1.5tana, X=0.4, Y=0.4cosaA is the pressure angle of the tapered roller
You need an icon for your meaningFor equivalent dynamic load pr=xfr+yfaThere is no best answerA is the pressure angle of the tapered rollerWhen fa/fr1.5tana, x=0.4, y=0.4cosaThe hydraulic cylinder fork head pin through the two breach for the violation of cone bearing, hydraulic cylinder swing instability, the adjacent coupling is not stable position, the hydraulic cylinder maximum thrust of 4 tons, the axial and radial force regardless of how the coupling in tapered roller bearings, continued regardless of a single bearing right amount motion
You need icons to get what you mean.Equivalent dynamic load Pr=XFr+YFaWhen Fa/Fr<1.5tana, X=1, Y=0When Fa/Fr>1.5tana, X=0.4, Y=0.4cosaA is the pressure angle of the tapered roller
