Stepper Motor Pinch Valve

by harrislab in Workshop > Science

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Stepper Motor Pinch Valve

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This proportional pinch valve is designed to be fully 3D printed and utilizes a readily available NEMA 17 stepper motor for mechanical control. The valve has been tested with pressurized air for full closure up to 15psi and can go from fully closed to fully open in 0.03 seconds or faster depending on the quality of the stepper motor. The valve operates by using a a cam to pinch a section of soft tubing and reduce the flow area. This design means that the working fluid only ever contacts the inside of the tubing.

The plot shows flow rate vs. cam position with pressurized air for 5, 10 and 15 PSI pressure drop across the valve. Both opening and closing are shown to demonstrate the hysteresis.

Materials

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The fasteners and stepper motor could be purchased anywhere; these suppliers are just provided for reference. However, the operation of the valve is pretty sensitive to the type of tubing used so it may not function properly if this exact tubing isn't used.

3D Printed Components

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Four components must be 3D printed for each cam valve. They are the housing, the housing cover, the cam, and the roller. We recommend using a resin 3D printer rather than a filament one due to its higher dimensional accuracy - we printed with a FormLabs Form 2 with clear resin and 0.05mm layer height. Be mindful of reference surfaces when placing supports. We found that it works best to print with the internal features of the housing components facing away from the build platform, so the parts are supported on external features. After the print finishes, remove the supports with small wire clippers and sand and file away the remnants.

STL files in inches:

Cam and Roller

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Begin by assembling the cam and roller using a M2x16 socket head cap screw. One side of the cam is a clearance hole and the other is threaded M2x0.4. After installing the roller, make sure that it spins freely. Don't over tighten the screw as it will pinch the roller. You may need to work the roller back and forth until it spins freely.

Valve Housing

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Place the housing onto the face of the stepper motor. The circular boss on the stepper motor should register in the housing. The motor can be oriented in any direction so pick one based on desired wire routing after the valve is mounted.

Attaching Cam Subassembly

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Turn the motor shaft by hand until the flat points towards the circular cutout in the housing intended for Allen key access. Slip the cam/roller subassembly onto the shaft. You may need to expand the hole in the cam slightly using a 5mm or letter F drill. Use the drill with a hand chuck or simply twist it by hand, but don't use a power drill. Use a 1.5mm Allen key to install the M3x4 set screw. Tighten onto the motor shaft.

Tubing

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Turn the cam so that it is out of the way and press the soft latex tubing into the semicircular channel. If you are using a short section of tubing and adapting it to other tubing in a flow circuit, center the tubing in the housing. This is a good time to make sure that the tolerances on the printed parts are correct. Try turning the cam by hand to pinch the tubing shut. It should not require much force to seal completely. If the force is excessive or the tubing does not appear to be fully compressed, we have included STL files for undersized and oversized rollers.

Attach Top

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Place the housing cover onto the housing and ensure that the cam does not bind as a result. The housing cover may need to be sanded if this occurs. Once the fit is good, fasten the housing cover and housing to the stepper motor with M3x22 screws. The housing includes holes for 4 M4 screws which can be used to mount the valve to a surface.

Controlling the Valve

We've attached simple Arduino code for controlling the valve over the serial monitor. The code would work for any STEP/DIR style stepper motor driver such as the Schmalzhaus EasyDriver which we used.