How Can I Resolve Mating Issues in Solidworks for an Axial Piston Pump Design?

  • Thread starter Thread starter Davieslad
  • Start date Start date
  • Tags Tags
    solidworks
AI Thread Summary
The user encountered mating issues in SolidWorks while designing an axial piston pump, specifically with the slipper pads not rotating freely on the ball joints when integrated into the main assembly. After seeking advice, they discovered that the problem stemmed from mixing mates between subassemblies and the main assembly, which hindered proper mating. The user successfully resolved the initial issue by rearranging the mates in a precise order and ensuring compatibility between subassemblies and the main assembly. However, they are now facing low RAM issues, which they see as an opportunity to upgrade their hardware. Overall, the discussion highlights the importance of careful mate management in SolidWorks assemblies.
Davieslad
Messages
22
Reaction score
0
Hi,

Im designing an axial piston pump in solidworks, prior to analysis.

Basically I am having difficulty in getting the slipper pads from the top of the pistons to mate to the swashplate, so that when rotated the pump produces a pumping action.

I have the slipper pads connected to the pistons via ball joints, and in the piston assembley, the slipper pads rotate freely on the ball joint (i have used the ball head and a ball slot as the mating surfaces). However when i put the piston assembley into the whole pump assembley (with the piston assembley mated concentrically in the bore) the slipper pad no longer rotates freely on its ball joint, and as such i can't mate them to the variable angle swashplate.

Can anyone suggest a different mating arrangement which might help my problem?

Many Thanks

Ed
 
Engineering news on Phys.org
Ok, I've sorted the initial problem, however no it won't let me adjust the angle of the swashplate. Anyone have any ideas?
Cheers
Ed
 
It's hard for me to visualize your problem. You would have more luck finding people who are familiar ith the terminology of your problem AND Solidworks, in the SW users forums. Have you tried there?
 
A picture of the assembly would help a lot.
 
I also have trouble visualizing what you're saying, but the trouble sounds like you're mixing mates from subassemblies with mates from higher assemblies. Are you using flexible subassemblies?
 
I have now sorted it out - it didnt like the sub assemblys being imported into the main assembly, and as such wouldn't mate as i required. I have also since discovered that for some reason i needed to arrange the mates in a very precise order - there all mated in now and looking tidy - only problem now is I am running pretty low on RAM.. but that's not an issue... its an excuse to go and buy more ram...

Thanks for all your help

Ed
 

Thread 'Bubble formation in 4 mm gap vessel'

How did you find PF?: Via Google search Hi, I have a vessel I 3D printed to investigate single bubble rise. The vessel has a 4 mm gap separated by acrylic panels. This is essentially my viewing chamber where I can record the bubble motion. The vessel is open to atmosphere. The bubble generation mechanism is composed of a syringe pump and glass capillary tube (Internal Diameter of 0.45 mm). I connect a 1/4” air line hose from the syringe to the capillary The bubble is formed at the tip...
View full post »

Thread 'HP Required to move a robot 10meters at 1.5m/sec'

I need some assistance with calculating hp requirements for moving a load. - The 4000lb load is resting on ball bearing rails so friction is effectively zero and will be covered by my added power contingencies. Load: 4000lbs Distance to travel: 10 meters. Time to Travel: 7.5 seconds Need to accelerate the load from a stop to a nominal speed then decelerate coming to a stop. My power delivery method will be a gearmotor driving a gear rack. - I suspect the pinion gear to be about 3-4in in...
View full post »
Thread 'Calculate minimum RPM to self-balance a CMG on two legs'

Thread 'Calculate minimum RPM to self-balance a CMG on two legs'

Here is a photo of a rough drawing of my apparatus that I have built many times and works. I would like to have a formula to give me the RPM necessary for the gyroscope to balance itself on the two legs (screws). I asked Claude to give me a formula and it gave me the following: Let me calculate the required RPM foreffective stabilization. I'll use the principles of gyroscopicprecession and the moment of inertia. First, let's calculate the keyparameters: 1. Moment of inertia of...
View full post »

Similar threads

Axial Piston Pumps Equation Help
Replies
1
Views
4K

Hot Threads

Recent Insights

Back
Top