MeritRD
Bioengineer
- Apr 13, 2004
- 8
I'm a newbie here and not an engineer, so please forgive the naivete. We have a sensitive pressure transducer used in a medical procedure that blows at over 120 psi and it's useful range is obviously below that. However, the system it is on can generate pressures up to 1200 psi. Currently, protocol calls for the physician to close the stopcock on the manifold going to the pressure transducer when the system would generate the higher pressures and then open the stopcock to the pressure transducer after to be able to measure pressures again.
I'm wondering if a style of valve exists (I don't need to buy one, I just need to see a design we can replicate with tubing IDs of 3 mm) that will be open at lower pressures, but then close with high pressures. That part is easy. The hard part is that on the other side of the closed valve, the pressure cannot go above the lower threshold or the pressure transducer will blow. For example, if it is something like a spring loaded plunger where the spring must be overcome by the high pressure, then the pressure generated "behind" the valve will go beyond the lower allowed pressure because of the mechanical movement of the plunger (or trap door, or whatever) and blow the transducer.
so, to summarize, it needs to be low pressure open, high pressure closed and protect the low pressure side from pressures above the threshold without a vent or blowoff (the system needs to be able to attain and maintain the higher pressures for use) and then return to open for the lower pressure. Seems like everything I've seen does the opposite.
I thought a solution might be to have an open-system blow off valve where excess pressure is relieved out a hole, yet this will not suffice because of the complications of dealing with the waste. However, if the system could bleed off only the tiny bit of volume moved by the mechanical movement of the plunger (or whatever) into an on-board reservoir, that might work. Since the volumes are so small, this would only be a drop or so of liquid. This is a crude solution and you guys probably have something that is out there for a different application that will solve my problem.
another possible solution i thought of is a plunger where one end is open to pressure and the other is open to atmosphere, but is supported by a spring that compresses only when plunger receives over 100 psi. the plunger contains a transverse fluid pathway that is open to the measured pressure system, but when the plunger moves with higher pressures, it closes the transverse pathway because it is protected by the cylinder wall.
Thanks for putting up with my non-engineer-speak and the long post. urls with pictures of internals of examples would be great.
dan
I'm wondering if a style of valve exists (I don't need to buy one, I just need to see a design we can replicate with tubing IDs of 3 mm) that will be open at lower pressures, but then close with high pressures. That part is easy. The hard part is that on the other side of the closed valve, the pressure cannot go above the lower threshold or the pressure transducer will blow. For example, if it is something like a spring loaded plunger where the spring must be overcome by the high pressure, then the pressure generated "behind" the valve will go beyond the lower allowed pressure because of the mechanical movement of the plunger (or trap door, or whatever) and blow the transducer.
so, to summarize, it needs to be low pressure open, high pressure closed and protect the low pressure side from pressures above the threshold without a vent or blowoff (the system needs to be able to attain and maintain the higher pressures for use) and then return to open for the lower pressure. Seems like everything I've seen does the opposite.
I thought a solution might be to have an open-system blow off valve where excess pressure is relieved out a hole, yet this will not suffice because of the complications of dealing with the waste. However, if the system could bleed off only the tiny bit of volume moved by the mechanical movement of the plunger (or whatever) into an on-board reservoir, that might work. Since the volumes are so small, this would only be a drop or so of liquid. This is a crude solution and you guys probably have something that is out there for a different application that will solve my problem.
another possible solution i thought of is a plunger where one end is open to pressure and the other is open to atmosphere, but is supported by a spring that compresses only when plunger receives over 100 psi. the plunger contains a transverse fluid pathway that is open to the measured pressure system, but when the plunger moves with higher pressures, it closes the transverse pathway because it is protected by the cylinder wall.
Thanks for putting up with my non-engineer-speak and the long post. urls with pictures of internals of examples would be great.
dan