Hi,
I am having some drive shaft issues. I have posted this before. I did further testing and came up with some new results and thought i will share this with the community and at the same time I hope to get some direction in this forum.
I have a PTO driving a Centrifugal pump. There are three shafts between the pump and PTO. All the shafts are slip-yoke type with universal joints at the ends. One of the shafts goes through a wall.
On one of the tests, i discovered that the bolts on the PTO housing (face) were sheared and the housing flange came off. Please note that the PTO that i have used in the attachment is not the actual one that i used. It is just there as a representation. Further analysis showed that the bolts broke in tensile action.
Vibration analysis on the wall showed that the wall was vibrating excessively in the axial direction (at least 1 mm).
My postulation is since there was excessive axial vibration, this might have caused the PTO shaft to be be pulled. When this shaft gets pulled, it also pull the housing flange which have caused the bolts to fail in tensile.
What i dont understand is, even if there is axial movement, only the shaft should slide axially in the bearing ( between the shaft and the flange bearing) right ? how would it cause the housing on the PTO to move??
Some causes of vibration could be:
1) the high universal joint angles at the position pointed out in the attachment
2) All the three shafts are yoke -slip type? does it mater how they are assembled...as in whether the tube side should be connected to the driver or the driven? is there a best practice on this? if so, why is it so?
3) The slip on the drive shaft (between PTO and the wall) is only 4 mm and the axial vibration is about 1 mm. Should the slip be longer?
Is there anything else i should check out?
Thank you.
I am having some drive shaft issues. I have posted this before. I did further testing and came up with some new results and thought i will share this with the community and at the same time I hope to get some direction in this forum.
I have a PTO driving a Centrifugal pump. There are three shafts between the pump and PTO. All the shafts are slip-yoke type with universal joints at the ends. One of the shafts goes through a wall.
On one of the tests, i discovered that the bolts on the PTO housing (face) were sheared and the housing flange came off. Please note that the PTO that i have used in the attachment is not the actual one that i used. It is just there as a representation. Further analysis showed that the bolts broke in tensile action.
Vibration analysis on the wall showed that the wall was vibrating excessively in the axial direction (at least 1 mm).
My postulation is since there was excessive axial vibration, this might have caused the PTO shaft to be be pulled. When this shaft gets pulled, it also pull the housing flange which have caused the bolts to fail in tensile.
What i dont understand is, even if there is axial movement, only the shaft should slide axially in the bearing ( between the shaft and the flange bearing) right ? how would it cause the housing on the PTO to move??
Some causes of vibration could be:
1) the high universal joint angles at the position pointed out in the attachment
2) All the three shafts are yoke -slip type? does it mater how they are assembled...as in whether the tube side should be connected to the driver or the driven? is there a best practice on this? if so, why is it so?
3) The slip on the drive shaft (between PTO and the wall) is only 4 mm and the axial vibration is about 1 mm. Should the slip be longer?
Is there anything else i should check out?
Thank you.